CN208654144U - A kind of expansible miniature water quality on-line monitoring system of integration - Google Patents
A kind of expansible miniature water quality on-line monitoring system of integration Download PDFInfo
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- CN208654144U CN208654144U CN201821274287.7U CN201821274287U CN208654144U CN 208654144 U CN208654144 U CN 208654144U CN 201821274287 U CN201821274287 U CN 201821274287U CN 208654144 U CN208654144 U CN 208654144U
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Abstract
A kind of expansible miniature water quality on-line monitoring system of integration, including middle control unit, adopt water dispensing unit, distilled water tank, first interface unit and multiple analytical units;First interface unit is equipped with monitoring water sample converting interface, distilled water converting interface, waste collection mouth, multicore adapter, the shunting in water route and circuit is realized using first interface unit, monitoring water sample is acquired convenient for each analysis unit and other monitoring materials are monitored respectively, design in this way, the analytical unit of different monitoring parameters can be designed as standardized interface form, conducive to the convenient extension of monitoring system, and monitoring process is facilitated to realize maintenance and maintenance, quickly disassembly and installation is realized by quick pipe joint and the quick-speed plug of multi-core connector, it can also be when encountering failure and needing repairing, substitute identical normalized analysis unit module in time, it is not required to interrupt the monitoring process of entire on-line monitoring system, realize real real time on-line monitoring.
Description
Technical field
The utility model relates to environmental monitoring field, espespecially a kind of expansible miniature water quality on-line monitoring system of integration.
Background technique
Monitoring room used in existing water quality monitoring system takes up a large area, long construction period, and each measurement module needs
Individually to be debugged and operated, original station uses RS232 serial ports One-to-one communication, and each measurement module distributes a serial ports,
Reserved serial ports is required if you need to spreading parameter, if original need temporarily to increase monitoring project sometimes without reserved serial ports,
Relevant device need to separately be increased, can not directly be extended on existing equipment.
In addition, the form because of each module is different, if occurring some module failure when in use, entire monitoring system need to be closed
It repairs, it is therefore desirable to monitoring process is interrupted, so that the duration and accuracy of monitoring are affected.Each monitoring unit is only
Vertical man-machine interface operation, scalability is poor, and integraty is poor, and monitoring unit moulding is different, and inside stacks confusion, and Pipeline intersects bright
It is aobvious, and water circuit intersects, pipeline is exposed, the bottled reagent used, and volatile, pipeline is chaotic.
Utility model content
The purpose of this utility model is to provide a kind of Miniature waters of expansible modularization standardization convenient for replacement maintenance
Matter on-line monitoring system is conducive to product and is based on modular design concept, after combination, can quickly adjust according to demand with suitable
Various environment are answered, it is partable, reach the unrivaled flexibility of other products.
Concrete scheme is as follows: a kind of expansible miniature water quality on-line monitoring system of integration, including middle control unit, adopts water distribution
Unit, distilled water tank, first interface unit and multiple analytical units;First interface unit is equipped with monitoring water sample converting interface, steams
Distilled water converting interface, waste collection mouth, multicore adapter, wherein the monitoring water sample adopted on water dispensing unit and first interface unit is transferred
The distilled water converting interface water route of the connection of saliva road, distilled water tank and first interface unit connects;Middle control unit and first interface list
The multicore adapter connection of member;Each analysis unit is equipped with monitoring water sample interface, a distilled water interface, a drain
Mouth, a multicore interface;Monitoring water sample converting interface on first interface unit be equipped with bifurcation structure respectively with each analysis unit
The connection of monitoring water sample interface, the distilled water converting interface on first interface unit be equipped with bifurcation structure respectively with each analysis
The distilled water interface of unit connects, the multicore adapter on first interface unit be equipped with parallel circuit respectively with each analysis list
The multicore interface connection of member, the waste collection mouth of first interface unit be equipped with bifurcation structure respectively with each analysis unit
Leakage fluid dram connection, and waste collection mouth is further connect with external waste liquid barrel;Design in this way, can be by different monitoring parameters
Analytical unit be designed as standardized modular form, conducive to monitoring system convenient extension, and facilitate monitoring process realize dimension
It repairs and safeguards.
Further, the connection that above-described analytical unit and first interface unit carry out is connect by fast pipeline
Head connection;Quickly disassembly and installation is realized by quick pipe joint and the quick-speed plug of multi-core connector, can also encounter failure
When needing repairing, substitute identical normalized analysis unit module in time, is not required to interrupt the monitoring of entire on-line monitoring system
Journey realizes real real time on-line monitoring.
Further, it is additionally provided with second interface unit, second interface unit is equipped with monitoring water sample converting interface, distilled water turns
Interface, waste collection mouth, multicore adapter, the bifurcation structure that the monitoring water sample converting interface on first interface unit is equipped with is wherein
One of the water route Fen Shui connect with the monitoring water sample converting interface of second interface unit, on the distilled water converting interface on first interface unit
It is connect equipped with the water route one of bifurcation structure Fen Shui with the distilled water converting interface of second interface unit, on first interface unit
The parallel circuit that multicore adapter is equipped with one of parallel circuit is connect with the multicore adapter of second interface unit, and first connects
The waste collection mouth of mouth unit is equipped with one of the bifurcation structure water route Fen Shui and the waste collection mouth of second interface unit connects
It connects, is fixedly provided with multiple monitoring water sample delivery ports, multiple distilled water delivery ports, multiple shunting multicores on second interface unit
Adapter, multiple waste liquid receiving ports are to extend the more analytical units of connection;Effect herein is to need to increase monitoring item
When purpose, it may need to increase corresponding analytical unit, when original system is not enough, because water, electricity, signal are all adopted
With the connection of parallel form, effective extension is carried out using second interface unit and is used, it, will be corresponding if do not need extension
Water route blocks, and electricity, signal routes, which are disconnected, then may be used.
Further, it is defeated that multiple monitoring water sample delivery ports, multiple distilled water are fixedly provided on the first interface unit
Send mouth, multiple shunting multicore adapters, multiple waste liquid receiving ports, wherein monitoring water sample converting interface by bifurcation structure design and
Each monitoring water sample delivery port connection, distilled water converting interface is designed by bifurcation structure and is connect with each distilled water delivery port, more
Core adapter is connect by parallel way with multiple shuntings with multicore adapter, and waste collection mouth is by bifurcation structure design and often
A waste liquid receiving port connection, a monitoring water sample delivery port of monitoring the water sample interface and first interface unit of each analysis unit
Connection, distilled water interface are connect with a distilled water delivery port of first interface unit, leakage fluid dram and a waste liquid receiving port connect
It connects, multicore interface is connect with a shunting with multicore adapter.Various interface solidifications are arranged on first interface unit, are conducive to divide
Water route and the unified quick-speed plug of routes such as circuit for analysing unit, it is mixed and disorderly to avoid route, is conducive to management.
Further, at least remaining one group of monitoring water sample delivery port on the first interface unit, distilled water delivery port,
Waste liquid receiving port, shunting multicore adapter are used for and the monitoring water sample converting interface of second interface unit, distilled water converting interface, more
Core adapter, waste collection mouth connect one to one.
Further, the water dispensing unit of adopting is equipped with monitoring water sampling filtration system, monitoring water sample flow cell, prison
It surveys water sample flow cell to connect with a monitoring water sample converting interface water route on first interface unit, water distribution list is adopted in middle control unit control
First acquisition in real time needs the water source monitored and first passes through monitoring water sampling filtration system to be filtered purification, subsequently into prison
Survey water sample flow cell.Some unnecessary mud impurity are first filtered out by monitoring water sampling filtration system, avoid entirely monitoring
The water line block of system, conducive to the long-time service of monitoring system.
Further, described adopt is additionally provided with the sink with sensor jack on water dispensing unit, is adopted by monitoring water sample
Monitoring water sample is obtained after collection filtration system flows through the sink;When needing some conventional sensors to be detected, can will sense
It is detected in device probe insertion sensor jack, if capping can be used to cover tightly sensor jack without using the function.
Further, the analytical unit, be additionally provided with thereon detection reagent container, control circuit, detection cell, air into
Mouthful, wherein detection reagent container, monitoring water sample interface, distilled water interface, air intlet are connected to inspection by the pump of controllable input
Pond is surveyed, detection component is connected on detection cell and drain pipe, drain pipe are connect with leakage fluid dram;Control circuit and multicore interface, can
Pump, the detection component connection of input are controlled, control circuit controls detection reagent, monitoring water by controlling the pump of controllable input
Sample, distilled water, air etc. enter the time and quantity of detection cell, while controlling detection component and providing the inspection needed in detection cell
Survey condition and reading detection data simultaneously transfer out.
Further, a fixed plate that can individually dismantle is set outside the analytical unit, monitors water sample interface, distilled water
Interface, multi-core connector, leakage fluid dram, which connect, to be fixedly arranged in this fixed plate.This analytical unit both can be used alone, can also be with monitoring system
It matches, conducive to the extension and maintenance of system, is repaired if interface goes wrong that fixed plate can also be disassembled,
Substantially reduce maintenance cost.
Further, the pump of the controllable input is being used cooperatively for multi-pass valve head and syringe pump, detection reagent container,
The distinct interface for monitoring water sample interface, distilled water interface, air intlet and multi-pass valve head connects, and syringe pump is connect with detection cell.
Further, its one outside plate of peripheral hardware of the analytical unit, detection cell, detection component, controllable input pump all
It is fixedly arranged on outside plate.
Further, display is additionally provided on the middle control unit.
Further, it is additionally provided with communication module on the middle control unit, the monitoring that will be acquired in real time conducive to middle control unit
Data are sent to backstage cloud.
The utility model technological merit:
1, some unnecessary mud impurity are first filtered out by monitoring water sampling filtration system, avoids entire monitoring system
Water line block, conducive to monitoring system long-time service;
2, all module miniaturizations are taken up little area, installation is fast using outdoor integrated cabinet;
3, module centralized control is not necessarily to individually operated each measurement module;
4, using bus communication, spreading parameter is not necessarily to spare interface, and single module removing does not influence system operation;
5, water circuit distribute unitedly, it is no intersection with it is exposed.
Detailed description of the invention
Fig. 1 is the connection schematic diagram of the patent;
Fig. 2 is the assembling schematic diagram of the patent Example;
Fig. 3 is the interface unit of the patent Example and the connection schematic diagram of analytical unit;
Fig. 4 is the analytical unit schematic diagram one of the patent Example;
Fig. 5 is the analytical unit schematic diagram two of the patent Example;
Fig. 6 is the analytical unit schematic diagram three of the patent Example;
Fig. 7 is the schematic illustration of multi-pass valve head in the patent Example.
Specific embodiment
As shown in Figure 1 and Figure 2, the expansible miniature water quality on-line monitoring system of a kind of integration, including middle control unit 1, adopt and match
Water unit 2, distilled water tank, first interface unit 3, analytical unit 4A, analytical unit 4B, analytical unit 4C, analytical unit 4D and
Second interface unit 5, as shown in 3 figures, first interface unit 3 is equipped with monitoring water sample converting interface 31, distilled water converting interface 32, gives up
34, two liquid collection port 33, multicore adapter monitoring shuntings of distilled water delivery port 36, two of water sample delivery port 35, two are used more
37, two waste liquid receiving ports 38 of core adapter;Second interface unit is equipped with monitoring water sample converting interface 51, distilled water converting interface
52, waste collection mouth, multicore adapter adopt water dispensing unit 2 and are equipped with monitoring water sampling filtration system 21, insert with sensor
The sink 22 and monitoring water sample flow cell 23, monitoring water sample flow cell 23 in hole 221 turn with the monitoring water sample on first interface unit 3
The connection of 31 water route of interface, distilled water tank connect with 32 water route of distilled water converting interface on first interface unit 3, middle control unit 1 and
The multicore adapter 34 of first interface unit 3 connects.
As shown in figure 4, each analysis unit 4 is equipped with 41, one, monitoring water sample interface, 42, one, a distilled water interface
Leakage fluid dram 43, a multicore interface 44;
As Figure 1-Figure 4, the monitoring water sample converting interface 31 on first interface unit 3 is equipped with three bifurcation structures, leads to
Two water routes Fen Shui and two monitoring water sample delivery ports 35 for crossing three bifurcation structures are separately connected, another water route Fen Shui and the
The monitoring water sample converting interface 51 of two interface units 5 connects;The monitoring water sample interface 41 of analytical unit 4A and analytical unit 4B is distinguished
It is connect with two monitoring water sample delivery ports 35 of first interface unit 3;
Distilled water converting interface 32 on first interface unit 3 is equipped with three bifurcation structures, passes through the two of three bifurcation structures
A water route Fen Shui is separately connected with two distilled water delivery ports 36, the distilled water in another water route Fen Shui and second interface unit 5
Converting interface 52 connects;The distilled water interface 42 of analytical unit 4A and analytical unit 4B is steamed with two of first interface unit 3 respectively
Distilled water delivery port 36 connects;
Multicore adapter 34 on first interface unit 3 is equipped with three shunt circuits by parallel way, by therein
Two shunt circuits are shunted with two and are connect with multicore adapter 37, the multicore of another shunt circuit and second interface unit 5
Adapter 54 connects;The multicore interface 44 of analytical unit 4A and analytical unit 4B is shunted with two of first interface unit 3 respectively
It is connected with multicore adapter 37;
Waste collection mouth 33 on first interface unit 3 is equipped with three bifurcation structures, passes through two of three bifurcation structures
The water route Fen Shui is connect with two waste liquid receiving ports 38, and the waste collection mouth 53 of another water route Fen Shui and second interface unit 5 connects
It connects;The leakage fluid dram 43 of analytical unit 4A and analytical unit 4B is connect with two waste liquid receiving ports 38 of first interface unit 3 respectively,
And the waste collection mouth 33 on first interface unit 3 is further connect with external waste liquid barrel;
Second interface unit 5 is fixedly provided with two distilled water delivery ports 56, two of monitoring water sample delivery port 55, two and shunts
With 57, two waste liquid receiving ports 58 of multicore adapter respectively with the monitoring water sample interface on analytical unit 4C and analytical unit 4D
41, distilled water interface 42, leakage fluid dram 43, multicore interface 44 connect one to one, and are extended according to actual demand.
As shown in Figure 4-Figure 7, detection reagent container 45, control circuit 46, detection are additionally provided on the analytical unit 4A
Pond 47, wherein detection reagent container 45, monitoring water sample interface 41, distilled water interface 42 pass through the distinct interface with multi-pass valve head 48
Respective liquid is injected into detection cell 47 using the syringe pump 49 connecting with multi-pass valve head 48 by 481 connections, is connected on detection cell 47
Detection component 471 and drain pipe 472, drain pipe are connect with leakage fluid dram 43;Injection in control circuit 46 and multi-pass valve head 48
Pump 49, detection component connection, control circuit 46 control detection reagent, monitoring by control multi-pass valve head 48 and syringe pump 49
Water sample, distilled water, air etc. enter the time and quantity of detection cell 47, while controlling detection component and providing into detection cell 47
Required testing conditions and reading detection data simultaneously transfer out, and a fixation that can individually dismantle is set outside analytical unit 4A
Plate 410, monitoring water sample interface 41, distilled water interface 42, multi-core connector, leakage fluid dram 43 connect and are fixedly arranged in this fixed plate 410.It is described
Analytical unit 4A its one outside plate 420 of peripheral hardware, detection cell 47, detection component, multi-pass valve head 48 and syringe pump 49 are all fixedly arranged on
On this outside plate 420.
Each analytical unit carries out the company of pipeline by quick pipe joint and first interface unit 3 and second interface unit 5
It connects.
It is additionally provided with communication module on middle control unit 1, the monitoring data that will be acquired in real time conducive to middle control unit 1 are sent to backstage
Cloud platform.
During real-time monitoring water environment, middle control unit 1 issues water source acquisition instructions, and control is adopted water dispensing unit 2 and adopted
Collect water source, water source is filtered to obtain after monitoring water sample by monitoring water sampling filtration system 21 by with sensor jack
221 sink 22 flows into monitoring water sample flow cell 23, while middle control unit 1 issues Monitoring instruction, and passes through first interface list
It is further that command adapted thereto is sent to the multicore interface 44 on connected analytical unit 4A by the multicore adapter 34 of member 3
Send analytical unit 4A with charge free, in control circuit 46, the control circuit 46 of analytical unit 4A receives Monitoring instruction and then further controls
Make monitoring water sample interface 41, the distilled water interface 42, monitoring examination that multi-pass valve head 48 and syringe pump 49 connected to it pass sequentially through
Agent container 45 is extracted, and passes through the prison on the first interface unit that is attached thereto when monitoring water sample interface 41 by the power extracted
It surveys water sample delivery port 35 to be extracted, further be extracted by connected monitoring water sample converting interface 31, and monitor water sample then
The monitoring water sample converting interface 31 for being drawn into interface unit by adopting the realization of the monitoring water sample flow cell 23 on water dispensing unit 2, then
The monitoring water sample interface 41 that monitoring water sample delivery port 35 further flow to analytical unit 4A is flowed to, multi-pass valve head 48 and injection are relied on
Pump 49 is injected in detection cell 47, likewise, also principle is extracted to detection cell 47 distilled water according to this, detection reagent is then direct
It extracts to detection cell 47, after monitoring water sample, distilled water and detection reagent and extracting to detection cell 47, the control detection of control circuit 46
Component provides corresponding monitoring condition and carries out test experience, and the monitoring data generated during test experience pass through control circuit
46 are acquired and analyze, and the shunting multicore of first interface unit 3 is further transferred to using coupled multi-core connector
Adapter 37, and then it is transferred to multicore adapter 34, middle control unit 1 is transferred to by multicore adapter 34, realizes monitoring data
Acquisition and analysis, correlated results shows after being analyzed collected monitoring data and is being attached thereto by middle control unit 1
On display, while the real-time management that backstage cloud further realizes monitoring is sent to by communication module thereon;Meanwhile it examining
It surveys in pond 47 after reaction, control circuit 46 controls multi-pass valve head 48 and connects air, injects air using syringe pump 49 and enters inspection
Pond 47 is surveyed, due to the increase of air pressure, so that the waste liquid generated is expelled to the row being attached thereto by the drain pipe on detection cell 47
Liquid mouth 43, further drains into the waste liquid receiving port 38 of first interface unit 3, then drains into waste collection mouth 33, and then is expelled to outer
Set waste liquid barrel.Meanwhile analytical unit 4B is monitored with identical monitoring process.
In addition, the analytical unit 4C and analytical unit D that are extended by second interface unit are also identical monitoring process,
This will not be repeated here.
The control that four analytical units control unit in carries out related monitoring process.
If the quantity of analytical unit 4 need to be further expanded, the water route of second interface unit need to only be shunted and circuit shunts
Separating one further expands third interface unit more, then further expanding for analytical unit can be achieved, and so on.
When the above monitoring water sample passes through the sink 22 with sensor jack 221, sensor probe can be inserted into sensor
It is detected in jack 221, if capping can be used to cover tightly sensor jack 221 without using the function.
All of above equipment can be placed using cabinet, be convenient for bulk migration and maintenance.
Claims (13)
1. a kind of expansible miniature water quality on-line monitoring system of integration, including middle control unit, adopt water dispensing unit, distilled water tank,
First interface unit and multiple analytical units, it is characterised in that: first interface unit is equipped with monitoring water sample converting interface, distilled water
Converting interface, waste collection mouth, multicore adapter, wherein adopting the monitoring water sample switching saliva on water dispensing unit and first interface unit
The distilled water converting interface water route of road connection, distilled water tank and first interface unit connects;Middle control unit and first interface unit
The connection of multicore adapter;Each analysis unit be equipped with a monitoring water sample interface, a distilled water interface, a leakage fluid dram,
One multicore interface;Monitoring water sample converting interface on first interface unit is equipped with the bifurcation structure prison with each analysis unit respectively
Survey the connection of water sample interface, the distilled water converting interface on first interface unit be equipped with bifurcation structure respectively with each analysis unit
The connection of distilled water interface, the multicore adapter on first interface unit be equipped with parallel circuit respectively with each analysis unit
The waste collection mouth of the connection of multicore interface, first interface unit is equipped with the bifurcation structure drain with each analysis unit respectively
Mouth connection, and waste collection mouth is further connect with external waste liquid barrel.
2. a kind of expansible miniature water quality on-line monitoring system of integration as described in claim 1, it is characterised in that: the above institute
The connection that the analytical unit and first interface unit stated carry out is connected by quick pipe joint.
3. a kind of expansible miniature water quality on-line monitoring system of integration as described in claim 1, it is characterised in that: be additionally provided with
Second interface unit, second interface unit are equipped with monitoring water sample converting interface, distilled water converting interface, waste collection mouth, multicore and turn
Connector, one of bifurcation structure that the monitoring water sample converting interface on first interface unit the is equipped with water route Fen Shui and second interface
The monitoring water sample converting interface of unit connects, and the distilled water converting interface on first interface unit is equipped with one of bifurcation structure point
Water water route is connect with the distilled water converting interface of second interface unit, and the multicore adapter on first interface unit is equipped with parallel circuit
The parallel circuit of one of them is connect with the multicore adapter of second interface unit, is set on the waste collection mouth of first interface unit
There is the water route one of bifurcation structure Fen Shui to connect with the waste collection mouth of second interface unit, it is also fixed on second interface unit
Have multiple monitoring water sample delivery ports, multiple distilled water delivery ports, multiple shunting multicore adapters, multiple waste liquid receiving ports to
Extension connects more analytical units.
4. a kind of expansible miniature water quality on-line monitoring system of integration as described in claim 1, it is characterised in that: first connects
Multiple monitoring water sample delivery ports, multiple distilled water delivery ports, multiple shunting multicore adapters, multiple are fixedly provided on mouthful unit
Waste liquid receiving port is connect wherein monitoring water sample converting interface is designed by bifurcation structure with each monitoring water sample delivery port, distilled water
Converting interface is designed by bifurcation structure and is connect with each distilled water delivery port, and multicore adapter passes through parallel way and multiple shuntings
It is connected with multicore adapter, waste collection mouth is designed by bifurcation structure and connect with each waste liquid receiving port, each analysis unit
Monitoring water sample interface connect with a monitoring water sample delivery port of first interface unit, distilled water interface and first interface unit
The connection of a distilled water delivery port, leakage fluid dram connect with a waste liquid receiving port, multicore interface and shunting multicore turn
Connector connection.
5. a kind of expansible miniature water quality on-line monitoring system of integration as claimed in claim 3, it is characterised in that: first connects
At least remaining one group of monitoring water sample delivery port, distilled water delivery port, waste liquid receiving port, shunting are used with multicore adapter on mouth unit
It corresponds and connects in monitoring water sample converting interface, distilled water converting interface, multicore adapter, the waste collection mouth with second interface unit
It connects.
6. a kind of expansible miniature water quality on-line monitoring system of integration as described in claim 1, it is characterised in that: adopt water distribution
Unit is equipped with monitoring water sampling filtration system, monitoring water sample flow cell, monitors on water sample flow cell and first interface unit
The connection of a monitoring water sample converting interface water route, middle control unit control adopt water dispensing unit acquire in real time the water source that monitors of needs and
It first passes through monitoring water sampling filtration system and is filtered purification, subsequently into monitoring water sample flow cell.
7. a kind of expansible miniature water quality on-line monitoring system of integration as claimed in claim 6, it is characterised in that: described
It adopts and is additionally provided with the sink with sensor jack on water dispensing unit, by obtaining monitoring water after monitoring water sampling filtration system
Sample flows through the sink.
8. a kind of expansible miniature water quality on-line monitoring system of integration as described in claim 1, it is characterised in that: described
Analytical unit is additionally provided with detection reagent container, control circuit, detection cell, air intlet thereon, wherein detection reagent container, prison
It surveys water sample interface, distilled water interface, air intlet and detection cell is connected to by the pump of controllable input, detection member is connected on detection cell
Device and drain pipe, drain pipe are connect with leakage fluid dram;Control circuit and multicore interface, the pump of controllable input, detection component connect
It connects, control circuit controls detection reagent, monitoring water sample, distilled water, air etc. by controlling the pump of controllable input and enters detection
The time and quantity in pond, while controlling detection component and the testing conditions needed in detection cell are provided and read detection data simultaneously
It transfers out.
9. a kind of expansible miniature water quality on-line monitoring system of integration as described in claim 1, it is characterised in that: analysis is single
First outside sets a fixed plate that can individually dismantle, and monitoring water sample interface, distilled water interface, multi-core connector, leakage fluid dram connect and be fixedly arranged on
In this fixed plate.
10. a kind of expansible miniature water quality on-line monitoring system of integration as claimed in claim 8, it is characterised in that: described
The pump of controllable input be that multi-pass valve head is composed with syringe pump, detection reagent container monitors water sample interface, distilled water and connects
The distinct interface of mouth, air intlet and multi-pass valve head connects, and syringe pump is connect with detection cell.
11. a kind of expansible miniature water quality on-line monitoring system of integration as claimed in claim 8, it is characterised in that: described
Analytical unit its one outside plate of peripheral hardware, detection cell, detection component, controllable input pump be all fixedly arranged on outside plate.
12. a kind of expansible miniature water quality on-line monitoring system of integration as described in claim 1, it is characterised in that: middle control
Unit is equipped with display.
13. a kind of expansible miniature water quality on-line monitoring system of integration as described in claim 1, it is characterised in that: middle control
Communication module is additionally provided on unit, the monitoring data that will be acquired in real time conducive to middle control unit are sent to backstage cloud.
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Cited By (1)
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CN108828179A (en) * | 2018-08-08 | 2018-11-16 | 厦门斯坦道科学仪器股份有限公司 | A kind of expansible miniature water quality on-line monitoring system of integration |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN108828179A (en) * | 2018-08-08 | 2018-11-16 | 厦门斯坦道科学仪器股份有限公司 | A kind of expansible miniature water quality on-line monitoring system of integration |
CN108828179B (en) * | 2018-08-08 | 2023-10-20 | 厦门斯坦道科学仪器股份有限公司 | Integrated extensible miniature water quality online monitoring system |
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