CN109459545A - Remote controlled reservoir comprehensive monitoring base station - Google Patents
Remote controlled reservoir comprehensive monitoring base station Download PDFInfo
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- CN109459545A CN109459545A CN201811351834.1A CN201811351834A CN109459545A CN 109459545 A CN109459545 A CN 109459545A CN 201811351834 A CN201811351834 A CN 201811351834A CN 109459545 A CN109459545 A CN 109459545A
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N33/00—Investigating or analysing materials by specific methods not covered by groups G01N1/00 - G01N31/00
- G01N33/18—Water
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01D—MEASURING NOT SPECIALLY ADAPTED FOR A SPECIFIC VARIABLE; ARRANGEMENTS FOR MEASURING TWO OR MORE VARIABLES NOT COVERED IN A SINGLE OTHER SUBCLASS; TARIFF METERING APPARATUS; MEASURING OR TESTING NOT OTHERWISE PROVIDED FOR
- G01D11/00—Component parts of measuring arrangements not specially adapted for a specific variable
- G01D11/30—Supports specially adapted for an instrument; Supports specially adapted for a set of instruments
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01D—MEASURING NOT SPECIALLY ADAPTED FOR A SPECIFIC VARIABLE; ARRANGEMENTS FOR MEASURING TWO OR MORE VARIABLES NOT COVERED IN A SINGLE OTHER SUBCLASS; TARIFF METERING APPARATUS; MEASURING OR TESTING NOT OTHERWISE PROVIDED FOR
- G01D21/00—Measuring or testing not otherwise provided for
- G01D21/02—Measuring two or more variables by means not covered by a single other subclass
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Abstract
The invention discloses remote controlled reservoir comprehensive monitoring base station, including pedestal and monitoring station, monitoring station is installed on pedestal, lifting electric cylinder is installed in pedestal, lifting electric cylinder is extended with elevating lever, and elevating lever is inserted into monitoring station, and elevating lever is fixedly connected with monitoring station;Centralized Controller is installed, Centralized Controller includes elevating control module, and elevating control module controls lifting electric cylinder in monitoring station;Monitoring station height control system and monitoring mould group are installed on monitoring station, signal identification module is installed in Centralized Controller, signal identification module connects monitoring station height control system and monitoring mould group, and signal identification module connects elevating control module;The upper end of monitoring station is equipped with monitor, and Centralized Controller includes communication module, and communication module is communicated to remote control terminal.The present invention periodic monitor water quality parameter and can be transferred to terminal control center, so that management unit is grasped reservoir composite water quality in real time, facilitate timely water quality treatment problem.
Description
Technical field
The present invention relates to reservoir development fields, relate to remote controlled reservoir comprehensive monitoring base station.
Background technique
Ecological reservoir refers mainly to be applied to ecological principle in reservoir construction management, and construction ecologic structure is reasonable, and energy
Enough using food chain/net as the ecology in reservoir area system of ecological flow (substance circulation, energy flow and information are transmitted) efficient operation of carrier
System, making the ecological reservoir not only has the function of environmental protection, but also realizes that energy converts simultaneously promoting fill cycle.And then realize water
Library is supplied water, the coordinating and unifying of the multiple functions such as flood control by reservoir regulation, reservoir energy supply and reservoir environmental protection.
Reservoir is a biggish ecosystem and a water supply source, and large-scale water reservoir management is more difficult, works as water
When water quality lesion occurs for library center, it is difficult to find the problem in time, be easy to increase the contaminated area of reservoir, thus at increase
Manage difficulty.
Summary of the invention
The purpose of the present invention is to provide remote controlled reservoir comprehensive monitoring base stations, in existing water reservoir management
Difficult point devises a kind of monitoring base station, which is distributed in each region of reservoir, for monitoring the water of corresponding region
Matter;Monitoring base station uses remote communication mode, remote controlled, and concentrates and be disposed with multiple monitoring unit, each monitoring unit
Each performs its own functions, and periodic monitor water quality parameter is simultaneously transferred to terminal control center, and management unit is made to grasp reservoir composite water quality in real time,
Facilitate timely water quality treatment problem.
In order to solve the above-mentioned technical problem, it adopts the following technical scheme that
Remote controlled reservoir comprehensive monitoring base station, including pedestal and monitoring station are equipped with monitoring station on pedestal, special
Sign is: lifting electric cylinder is equipped in pedestal, lifting electric cylinder is extended with elevating lever, and elevating lever is inserted into monitoring station, elevating lever
It is fixedly connected with monitoring station;Centralized Controller is installed, Centralized Controller includes elevating control module, elevating control in monitoring station
Module controls lifting electric cylinder;Monitoring station height control system and monitoring mould group, peace in Centralized Controller are installed on monitoring station
Equipped with signal identification module, signal identification module connects monitoring station height control system and monitoring mould group, and signal identification module connects
Connect elevating control module;The upper end of monitoring station is equipped with monitor, and the upper end of monitor is equipped with monitoring probe mould group, concentrates control
Device processed includes monitoring module, monitoring module connection monitoring probe mould group;Centralized Controller includes communication module, communication module
It is communicated to remote control terminal.
Further, the two sides of pedestal lower end are connected with Fixed latches part, and fixed bolt hole is equipped in Fixed latches part, fixed
Bolt hole is equipped with fixing bolt.The concrete pier for installing monitoring base station is built under reservoir in advance, and in concrete
There are the bolt orifice of metal on pier, which is mutually matched with Fixed latches part;During the installation process, Fixed latches part is inserted
Enter in pin hole, then fixed by fixing bolt, it is easy for installation, entire monitoring base station can also be unloaded, facilitate inspection with
Maintenance.
Further, the upper end of pedestal is equipped with lifting locating slide rod, and the lower end of monitoring station is equipped with lifting locating sleeve, and lifting is fixed
Position slide bar is mutually matched with lifting locating sleeve.Go up and down locating slide rod can be inserted into lifting locating sleeve in, reach pan-up with
The purpose of decline prevents because the effect of buoyancy causes lifting position to deviate, of simple structure and strong practicability.
Further, monitoring station height control system includes side plate, magnet steel floating ball and infrared distance sensor, side plate peace
The surface of side loaded on monitoring station, side plate is equipped with sliding slot, and sliding slot is from top to bottom arranged, and is connected with connecting rod on magnet steel floating ball,
Connecting rod is equipped with sliding mouth, and the wall for sliding mouth and sliding slot is mutually matched;Infrared distance sensor is installed on the lower end of monitor, infrared survey
It is arranged downward away from sensor, magnet steel floating ball and infrared distance sensor consistency from top to bottom, the identification of infrared distance sensor connection signal
Module.Monitoring station height control system is used to automatically control the height of monitoring station, its working principle is that: magnet steel floating ball passes through connecting rod
It is connected on the sliding slot of side plate, in the raised situation of water level, magnet steel floating ball is moved up along sliding slot, indicates water level submergence
The eminence position of monitoring station, the distance between magnet steel floating ball and infrared distance sensor are furthered, infrared distance sensor inspection
It surveys distance signal and is transferred to signal identification module, signal transmission module identifies between magnet steel floating ball and infrared distance sensor
Range information determines that the two distance is too close, and monitoring station may be submerged, and then control lifting electric cylinder working, by monitoring station
On move to normal position (magnet steel floating ball is subject in the normal position and infrared distance sensor is restored to normal spacing);
In the case where water level reduces, magnet steel floating ball is moved down along sliding slot, indicates the part that monitoring station is exposed the surface
More and more, the distance between magnet steel floating ball and infrared distance sensor are zoomed out, infrared distance sensor detecting distance signal
And it is transferred to signal identification module, signal transmission module identifies the distance between magnet steel floating ball and infrared distance sensor information,
Both determine that apart from too far, monitoring station is exposed the surface too much, and then control lifting electric cylinder working, and monitoring station is dropped to normally
Position (magnet steel floating ball is subject in the normal position and infrared distance sensor is restored to normal spacing).
Further, monitoring mould group includes water injection pipe, pH test chamber, dissolved oxygen test chamber, suspended matter determination chamber, total nitrogen total phosphorus
Chamber and outlet pipe are measured, water injection pipe connects pH test chamber, dissolved oxygen test chamber, suspended matter determination chamber, total nitrogen by penstock
Total phosphorus determination chamber, solenoid valve is respectively connected on penstock, and Centralized Controller includes timing detection control module, timing detection control
Molding block controls solenoid valve;Outlet pipe connects pH test chamber, dissolved oxygen test chamber, suspended matter determination chamber, total by water output duct
Nitrogen total phosphorus determination chamber, suction pump is equipped on outlet pipe, and suction pump is controlled by timing detection control module, connected on water output duct
There is check valve.Monitoring mould group can be realized the function of periodic monitor water quality, and timing detects in control module and is provided with monitoring frequency,
When needing to monitor, timing detect control module open solenoid valve, water by water injection pipe, penstock enter pH test chamber,
Dissolved oxygen test chamber, suspended matter determination chamber, total nitrogen total phosphorus measurement are intracavitary, complete water quality detection operation at the appointed time;Then
Timing detection control module closes solenoid valve, opens suction pump, water is taken away from each test chamber;To next monitoring cycle
When, it repeats the above steps, administrator is facilitated to grasp the water quality situation of reservoir each region in real time.
It further, include the first check bit, the first water inlet pipe and the first outlet pipe, pH detection in the cavity of pH test chamber
Intracavitary to be incorporated with pH detector, the test side of pH detector is protruded into the first check bit, and one end of the first water inlet pipe connects water inlet
Conduit, the other end of the first water inlet pipe are connected to the upper end of the first check bit, and one end of the first outlet pipe is connected to the first detection
The lower end of position, the other end of the first outlet pipe connect water output duct, and pH detector is controlled by timing detection control module, pH detection
Instrument connection signal identification module.Water is filled entire first check bit, the pH value of pH detector test water, detection by the first water inlet pipe
Water is discharged by the first outlet pipe after the completion, is not influenced by other factors in detection process, detection effect is significant.
It further, include the second check bit, the second water inlet pipe and the second outlet pipe in the cavity of dissolved oxygen test chamber, it is molten
It is incorporated with dissolved oxygen meter in solution oxygen test chamber, the test side of dissolved oxygen meter is protruded into the second check bit, the second water inlet
One end of pipe connects penstock, and the other end of the second water inlet pipe is connected to the upper end of the second check bit, and the one of the second outlet pipe
End is connected to the lower end of the second check bit, and the other end of the second outlet pipe connects water output duct, and dissolved oxygen meter is by periodically examining
Survey control module control, dissolved oxygen meter connection signal identification module.Water is filled entire second check bit by the second water inlet pipe,
Dissolved oxygen meter detects the dissolved oxygen in water, water is discharged by the second outlet pipe after the completion of detection, not by it in detection process
The influence of his factor, detection effect are significant.
Further, it includes third check bit, third water inlet pipe and third outlet pipe that suspended matter determination is intracavitary, and suspended matter is surveyed
It is fixed it is intracavitary be incorporated with photoelectricity suspended matter determination instrument, photoelectricity suspended matter determination instrument includes transmitter and detector, transmitter and inspection
Device is surveyed to be mounted in third check bit;One end of third water inlet pipe connects penstock, the other end connection of third water inlet pipe
In the upper end of third check bit, one end of third outlet pipe is connected to the lower end of third check bit, the other end of third outlet pipe
Water output duct is connected, photoelectricity suspended matter determination instrument is controlled by timing detection control module, photoelectricity suspended matter determination instrument connection signal
Identification module.Water is filled entire third check bit by third water inlet pipe, and photoelectricity suspended matter determination instrument detects the suspended matter in water, light
The concentration of suspension in decaying and liquid that the infrared light of electric-type suspended matter determination instrument is transmitted and scattered in sludge and suspended matter
Based on related.The infrared light that transmitter is sent only has one in transmission process after the absorption of measured object, reflection and scattering
Fraction light can be irradiated on detector, and the concentration of the transmissivity of transmitted light and tested sewage has certain relationship, therefore logical
The transmissivity for crossing measurement transmitted light can calculate the concentration of sewage;Water is discharged by third outlet pipe after the completion of detection, is examined
It is not influenced by other factors during surveying, detection effect is significant.
Further, it includes the 4th check bit, the 4th water inlet pipe and the 4th outlet pipe that total nitrogen total phosphorus measurement is intracavitary, and total nitrogen is total
Phosphorus measurement is intracavitary to be incorporated with total nitrogen total phosphorus analyzer, and total nitrogen total phosphorus analyzer includes four-way measurement head, and four-way measures the surrounding of head
Including there are four determination part, being equipped with planchet in four determination parts, planchet is opened wide, and rubber is laid at planchet open ports
Pad;One end of 4th water inlet pipe connects penstock, and the other end of the 4th water inlet pipe is connected to the upper end of the 4th check bit, and the 4th
One end of outlet pipe is connected to the lower end of the 4th check bit, and the other end of the 4th outlet pipe connects water output duct, and total nitrogen total phosphorus is surveyed
Instrument is determined by timing detection control module control, total nitrogen total phosphorus analyzer connection signal identification module.4th water inlet pipe fills water
Entire 4th check bit, total nitrogen total phosphorus analyzer detects the total phosphorus and total nitrogen in water, by water by the 4th outlet pipe after the completion of detection
It is discharged, is not influenced by other factors in detection process, detection effect is significant.
Four determination parts can measure 4 groups of total phosphorus and total nitrogen data simultaneously, and total phosphorus and total nitrogen analyzer is averaged 4 groups of measurement data,
Detection process is scientific, reasonable, and obtained total phosphorus and total nitrogen content is more accurate.
Further, signal identification module includes signal conversion circuit, signal recognition circuit, logic control circuit, rising-falling tone
Economize on electricity road and signal circuit, signal conversion circuit are separately connected signal recognition circuit and signal circuit, signal identification
Circuit connection logic control circuit, signal circuit connecting communication module, logic control circuit connect lift adjustment circuit, rise
Falling tone section circuit connection elevating control module.Signal conversion circuit can receive the signal of each detection device and be converted into telecommunications
Number, signal is transmitted to remote control terminal by communication module, clearly appears from measurement result;Signal recognition circuit can be by magnet steel
The distance signal of floating ball and infrared distance sensor is proofreaded, and obtains collation, and logic control circuit is tied according to check and correction
Fruit issues to lift adjustment circuit and instructs, and realizes lifting on demand.
As a result of the above technical solution, the following beneficial effects are obtained:
The present invention is that remote controlled reservoir comprehensive monitoring base station is devised for the difficult point in existing water reservoir management
A kind of monitoring base station, the monitoring base station are distributed in each region of reservoir, for monitoring the water quality of corresponding region;Monitoring base station is adopted
It is remote controlled with remote communication mode, and concentrate and be disposed with multiple monitoring unit, Each performs its own functions for each monitoring unit, timing
Monitoring water quality parameter is simultaneously transferred to terminal control center, and management unit is made to grasp reservoir composite water quality, convenient processing in time in real time
Quality problem.Its specific beneficial effect shows as the following:
1, lifting electric cylinder is installed, lifting electric cylinder is able to drive monitoring station rise and fall, so that monitoring in pedestal
It stands according to its relative altitude of water level regulation, prevents the component of monitoring station submerged in water, prolong the service life.
2, monitoring station height control system is used to automatically control the height of monitoring station, its working principle is that: magnet steel floating ball is logical
It crosses connecting rod to be connected on the sliding slot of side plate, in the raised situation of water level, magnet steel floating ball is moved up along sliding slot, indicates water
Position has submerged the eminence position of monitoring station, and the distance between magnet steel floating ball and infrared distance sensor are furthered, and infrared distance measurement passes
Sensor detecting distance signal is simultaneously transferred to signal identification module, and signal transmission module identifies magnet steel floating ball and infrared distance sensor
The distance between information, determine both distance it is too close, monitoring station may be submerged, so make elevating control module control lifting
Electronic cylinder working, normal position will be moved on monitoring station, and (normal position is restored to magnet steel floating ball with infrared distance sensor
Subject to normal spacing);In the case where water level reduces, magnet steel floating ball is moved down along sliding slot, indicates that monitoring station is exposed the surface
Part it is more and more, the distance between magnet steel floating ball and infrared distance sensor are zoomed out, infrared distance sensor detection away from
From signal and it is transferred to signal identification module, signal transmission module identifies the distance between magnet steel floating ball and infrared distance sensor
Information both determines that apart from too far, monitoring station is exposed the surface too much, and then makes elevating control module control lifting electric cylinder work
Make, monitoring station is dropped to normal position, and (normal position is restored to normal spacing with magnet steel floating ball and infrared distance sensor
Subject to).
3, multiple monitoring probes are provided in monitoring probe mould group, circumferential one circle of setting of monitoring probe can monitor periphery
The water surface of all directions, to the water surface situation in the intuitive reflecting regional of manager.
4, the modules in communication module and Centralized Controller have connection relationship, can be by the various number of monitoring base station
According to remote control terminal is transferred to, remote control terminal can carry out active control to monitoring base station by communication module, thus
Achieve the purpose that remotely to control, remotely monitor.
Detailed description of the invention
The present invention will be further explained below with reference to the attached drawings:
Fig. 1 is the structural schematic diagram of the remote controlled reservoir comprehensive monitoring base station of the present invention;
Fig. 2 is the structural schematic diagram of side plate;
Fig. 3 is the structural schematic diagram of magnet steel floating ball;
Fig. 4 is the structural schematic diagram of water injection pipe;
Fig. 5 is the structural schematic diagram of pH test chamber;
Fig. 6 is the structural schematic diagram of suspended matter determination chamber;
Fig. 7 is the structural schematic diagram that total nitrogen total phosphorus measures chamber;
Fig. 8 is the structural block diagram of Centralized Controller;
Fig. 9 is the structural block diagram of signal identification module.
Specific embodiment
As shown in Figures 1 to 9, remote controlled reservoir comprehensive monitoring base station, including pedestal 1 and monitoring station 8, pedestal 1
On monitoring station 8 is installed, the two sides of 1 lower end of pedestal are connected with Fixed latches part 3, and the bottom of Fixed latches part 3 exceeds pedestal 1
Bottom 10-15cm, fixed bolt hole is equipped in Fixed latches part 3, fixed bolt hole is equipped with fixing bolt 4.Reservoir bottom
Build the concrete pier for installing monitoring base station in advance down, and there are the bolt orifice of metal on concrete pier, this is inserted
Pin hole is mutually matched with Fixed latches part 3;During the installation process, Fixed latches part 3 is inserted into pin hole beyond 1 part of pedestal
In, then it is fixed by fixing bolt 4, it is easy for installation, entire monitoring base station can also be unloaded, facilitate inspection and maintenance.
Centralized Controller is installed, Centralized Controller is used to control all parts of monitoring station 8, main to wrap in monitoring station 8
Elevating control module, signal identification module, communication module, timing detection control module, monitoring module are included, modules are respectively taken charge of
Each function of monitoring station 8 is realized in its duty.Wherein, there are certain connection relationships with communication module for remaining modules, and
Communication module is communicated to remote control terminal, on the one hand the operating condition of other modules and measurement result can be transferred to communication
Module, then remote control terminal is transferred to by communication module;On the other hand, remote control terminal is by communicating energy with communication module
Some control instructions are enough issued, to realize remote control function.
Signal identification module include signal conversion circuit, signal recognition circuit, logic control circuit, lift adjustment circuit and
Signal circuit, signal conversion circuit are separately connected signal recognition circuit and signal circuit, signal recognition circuit connection
Logic control circuit, signal circuit connecting communication module, logic control circuit connect lift adjustment circuit, rising-falling tone economize on electricity
Road connects elevating control module.Signal conversion circuit can receive the signal of each detection device and be converted into electric signal, signal
It is transmitted to remote control terminal by communication module, clearly appears from measurement result.
Function one: the upper end of monitoring station 8 is equipped with monitor 16, and the upper end of monitor 16 is equipped with monitoring probe mould group
17, probe mould group annular is enclosed around monitor 16 1, monitoring probe 18 is uniformly provided on probe mould group annular ring, every 30 °
One probe is set, and monitoring probe mould group 17 is connected to monitoring module, by communication module, monitoring image is transmitted to long-range control
Terminal processed can monitor the water surface of periphery all directions, to the water surface situation in the intuitive reflecting regional of manager.
Function two: being equipped with lifting electric cylinder 2 in pedestal 1, lifting electric cylinder 2 is extended with elevating lever 5, and elevating lever 5 is inserted into
Monitoring station 8, elevating lever 5 are fixedly connected with monitoring station 8, are able to drive 5 activity of elevating lever;Lifting electric cylinder 2 is by elevating control mould
Block control, it is extended and retracted to control lift cylinders, and in the extended state, elevating lever 5 drives monitoring station 8 to rise, contraction-like
Under state, elevating lever 5 drives monitoring station 8 to fall.Pass through the i.e. controllable lifting electric cylinder 2 of remote control terminal.
The upper end of pedestal 1 is equipped with lifting locating slide rod 7, and the lower end of monitoring station 8 is equipped with lifting locating sleeve 6, lifting positioning
Slide bar 7 is mutually matched with lifting locating sleeve 6.Going up and down locating slide rod 7 can be inserted into lifting locating sleeve 6, reach pan-up
With the purpose of decline, prevent because the effect of buoyancy causes lifting position to deviate, of simple structure and strong practicability.
Function three: monitoring station 8 is equipped with 8 height control system of monitoring station, and 8 height control system of monitoring station includes side plate
14, magnet steel floating ball 15 and infrared distance sensor 19, side plate 14 are installed on the side of monitoring station 8, and the surface of side plate 14 is set
There is sliding slot 19, sliding slot 19 is from top to bottom arranged, and connecting rod 20 is connected on magnet steel floating ball 15, and connecting rod 20 is plastic products, can also float
It floats in water;Connecting rod 20 is equipped with sliding mouth 41, and sliding mouth 41 and the wall of sliding slot 19 are mutually matched, and realizes that magnet steel floating ball 15 can be with
Water level floats up and down;Infrared distance sensor 19 is installed on the lower end of monitor 16, and infrared distance sensor 19 is arranged downward, magnetic
Steel floating ball 15 and 19 consistency from top to bottom of infrared distance sensor, and the upper end size of magnet steel floating ball 15 is larger, can stablize and receive
The infrared light that infrared distance sensor 19 issues, 19 connection signal identification module of infrared distance sensor.
8 height control system of monitoring station is used to automatically control the height of monitoring station 8, its working principle is that: magnet steel floating ball 15
Be connected on the sliding slot 19 of side plate 14 by connecting rod 20, in the raised situation of water level, magnet steel floating ball 15 along sliding slot 19 to
Upper movement indicates that water level has submerged the eminence position of monitoring station 8, the distance between magnet steel floating ball 15 and infrared distance sensor 19
It is furthered, 19 detecting distance signal of infrared distance sensor is simultaneously transferred to signal identification module, and signal transmission module identifies magnet steel
The distance between floating ball 15 and infrared distance sensor 19 information determine that the two distance is too close, and monitoring station 8 may be submerged,
And then control lifting electric cylinder 2 work, will be moved on monitoring station 8 normal position (normal position with magnet steel floating ball 15 with it is infrared
Distance measuring sensor 19 is restored to subject to normal spacing);
In the case where water level reduces, magnet steel floating ball 15 is moved down along sliding slot 19, indicates what monitoring station 8 was exposed the surface
Part is more and more, and the distance between magnet steel floating ball 15 and infrared distance sensor 19 are zoomed out, and infrared distance sensor 19 is examined
Survey distance signal and be simultaneously transferred to signal identification module, signal transmission module identify magnet steel floating ball 15 and infrared distance sensor 19 it
Between range information, both determine that apart from too far, monitoring station 8 is exposed the surface too much, and then is controlled lifting electric cylinder 2 and worked, by
Monitoring station 8 drops to normal position, and (normal position is restored to normal spacing with magnet steel floating ball 15 and infrared distance sensor 19
Subject to).
It is realized based on above-mentioned 8 height control system of monitoring station and automatically controls lifting electric cylinder 2, so that 8 basis of monitoring station
Its relative altitude of water level regulation, prevents the component of monitoring station 8 submerged in water, prolongs the service life.
Function four: monitoring station 8 is equipped with monitoring mould group, and monitoring mould group includes water injection pipe 9, pH test chamber 10, dissolved oxygen inspection
It surveys chamber 11, suspended matter determination chamber 12, total nitrogen total phosphorus measurement chamber 13 and outlet pipe 39, water injection pipe 9 and pH is connected by penstock 22
Test chamber 10, dissolved oxygen test chamber 11, suspended matter determination chamber 12, total nitrogen total phosphorus measure chamber 13, are respectively connected on penstock 22
Solenoid valve 23, solenoid valve 23 is for controlling water inlet.Timing detection control module controls solenoid valve 23, and then controls each test chamber
Water inlet.Outlet pipe 39 connects pH test chamber 10, dissolved oxygen test chamber 11, suspended matter determination chamber 12, total by water output duct 27
Nitrogen total phosphorus determination chamber 13 is equipped with suction pump 40 on outlet pipe 39, is connected with check valve 28 on water output duct 27, suction pump 40 by
Timing detection control module control, and then realize orientation draining.
It include the first check bit 25, the first water inlet pipe 24 and the first outlet pipe 26, pH inspection in the cavity of pH test chamber 10
It surveys in chamber 10 and is incorporated with pH detector, the test side of pH detector is protruded into the first check bit 25, one end of the first water inlet pipe 24
Penstock 22 is connected, the other end of the first water inlet pipe 24 is connected to the upper end of the first check bit 25, and the one of the first outlet pipe 26
End is connected to the lower end of the first check bit 25, and the other end of the first outlet pipe 26 connects water output duct 27, and pH detector is by timing
Detect control module control, pH detector connection signal identification module.Water is filled entire first check bit by the first water inlet pipe 24
Water is discharged by the first outlet pipe 26 after the completion of detection for the pH value of 25, pH detector test water, in detection process not by other because
The influence of element, detection effect are significant.
Dissolved oxygen test chamber 11 is identical as the shape of pH test chamber 10, includes second in the cavity of dissolved oxygen test chamber 11
Check bit, the second water inlet pipe and the second outlet pipe are incorporated with dissolved oxygen meter, dissolved oxygen meter in dissolved oxygen test chamber 11
Test side protrude into the second check bit, one end of the second water inlet pipe connects penstock 22, and the other end of the second water inlet pipe connects
Be connected to the upper end of the second check bit, one end of the second outlet pipe is connected to the lower end of the second check bit, the second outlet pipe it is another
End connection water output duct 27, dissolved oxygen meter are controlled by timing detection control module, the identification of dissolved oxygen meter connection signal
Module.Water is filled entire second check bit by the second water inlet pipe, and dissolved oxygen meter detects the dissolved oxygen in water, after the completion of detection
Water is discharged by the second outlet pipe, is not influenced by other factors in detection process, detection effect is significant.
It include third check bit 30, third water inlet pipe 29 and third outlet pipe 31, suspended matter in suspended matter determination chamber 12
Photoelectricity suspended matter determination instrument is incorporated in measurement chamber 12, photoelectricity suspended matter determination instrument includes transmitter 32 and detector 33, hair
Emitter 32 and detector 33 are mounted in third check bit 30;One end of third water inlet pipe 29 connects penstock 22, third
The other end of water inlet pipe 29 is connected to the upper end of third check bit 30, and one end of third outlet pipe 31 is connected to third check bit 30
Lower end, the other end of third outlet pipe 31 connects water output duct 27, and photoelectricity suspended matter determination instrument detects control module by timing
Control, photoelectricity suspended matter determination instrument connection signal identification module.Water is filled entire third check bit 30, light by third water inlet pipe 29
Suspended matter in electrically floating object analyzer detection water, the infrared light of photo-electric suspended matter determination instrument transmit in sludge and suspended matter
Based on related with the concentration of suspension in the decaying and liquid of scattering.The infrared light that transmitter 32 is sent passes through in transmission process
Only sub-fraction light can be irradiated on detector 33 after crossing the absorption, reflection and scattering of measured object, the transmissivity of transmitted light
There is certain relationship with the concentration of tested sewage, therefore the dense of sewage can be calculated by the transmissivity of measurement transmitted light
Degree;Water is discharged by third outlet pipe 31 after the completion of detection, is not influenced by other factors in detection process, detection effect is aobvious
It writes.
It includes the 4th check bit 36, the 4th water inlet pipe 34 and the 4th outlet pipe 35, total nitrogen that total nitrogen total phosphorus, which measures in chamber 13,
Total nitrogen total phosphorus analyzer is incorporated in total phosphorus determination chamber 13, total nitrogen total phosphorus analyzer includes four-way measurement head 37, and four-way measures head
37 surrounding includes that planchet is equipped in four determination parts 38 there are four determination part 38, and planchet opens wide, planchet open ports
Place is laid with rubber pad;One end of 4th water inlet pipe 34 connects penstock 22, and the other end of the 4th water inlet pipe 34 is connected to the 4th
The upper end of check bit 36, one end of the 4th outlet pipe 35 are connected to the lower end of the 4th check bit 36, the 4th outlet pipe 35 it is another
End connection water output duct 27, total nitrogen total phosphorus analyzer are controlled by timing detection control module, total nitrogen total phosphorus analyzer connection signal
Identification module.Water is filled entire 4th check bit 36 by the 4th water inlet pipe 34, total nitrogen total phosphorus analyzer detect total phosphorus in water with
Water is discharged by the 4th outlet pipe 35 after the completion of detection, is not influenced by other factors in detection process by total nitrogen, and detection effect is aobvious
It writes.Four determination parts 38 can measure 4 groups of total phosphorus and total nitrogen data simultaneously, and total phosphorus and total nitrogen analyzer is averaged 4 groups of measurement data, detection
Process engineering, rationally, obtained total phosphorus and total nitrogen content is more accurate.
Monitoring mould group can be realized the function of periodic monitor water quality, and timing detects in control module and is provided with monitoring frequency,
When needing to monitor, timing detects control module and opens solenoid valve 23, and water enters pH inspection by water injection pipe 9, penstock 22
It surveys chamber 10, dissolved oxygen test chamber 11, suspended matter determination chamber 12, total nitrogen total phosphorus to measure in chamber 13, completes water quality at the appointed time
Detect operation;Then timing detection control module closes solenoid valve 23, opens suction pump 40, water is taken out from each test chamber
It walks;It when next monitoring cycle, repeats the above steps, administrator is facilitated to grasp the water quality situation of reservoir each region in real time.
In the detection process, setting detection frequency and single detect duration s in timing detection control module in advance, such as every
Week detection is primary, detection is primary every three days or detection one daily is inferior;After setting completed, when entering detection time section, timing
It detects control module and starts solenoid valve 23, reservoir water is injected separately into pH test chamber 10, dissolved oxygen test chamber 11, suspended matter determination
In chamber 12 and total nitrogen total phosphorus measurement chamber 13;Meanwhile the detecting element in each test chamber starts to detect operation;In the detection s time
Detection finishes afterwards, and testing result is transmitted to remote control terminal, and the control module of timing detection at this time closes solenoid valve 23, opens and takes out
Water pump 40, water is taken away;At next detection working day, repeat the above process again.
The above is only specific embodiments of the present invention, but technical characteristic of the invention is not limited thereto.It is any with this hair
Based on bright, to solve essentially identical technical problem, essentially identical technical effect is realized, made ground simple change, etc.
With replacement or modification etc., all it is covered by among protection scope of the present invention.
Claims (10)
1. remote controlled reservoir comprehensive monitoring base station, including pedestal and monitoring station, the monitoring is installed on the pedestal
It stands, it is characterised in that: lifting electric cylinder is installed, the lifting electric cylinder is extended with elevating lever, the lifting in the pedestal
Bar is inserted into the monitoring station, and the elevating lever is fixedly connected with the monitoring station;Centralized Controller is installed in the monitoring station,
The Centralized Controller includes elevating control module, and the elevating control module controls the lifting electric cylinder;The monitoring station
On monitoring station height control system and monitoring mould group are installed, signal identification module is installed in the Centralized Controller, it is described
Signal identification module connects the monitoring station height control system and the monitoring mould group, described in the signal identification module connects
Elevating control module;The upper end of the monitoring station is equipped with monitor, and the upper end of the monitor is equipped with monitoring probe mould group,
The Centralized Controller includes monitoring module, and the monitoring module connects the monitoring probe mould group;The Centralized Controller
It include communication module, the communication module is communicated to remote control terminal.
2. remote controlled reservoir comprehensive monitoring base station according to claim 1, it is characterised in that: the pedestal lower end
Two sides be connected with Fixed latches part, fixed bolt hole is equipped in the Fixed latches part, the fixed bolt hole is equipped with solid
Determine bolt.
3. remote controlled reservoir comprehensive monitoring base station according to claim 1, it is characterised in that: the pedestal it is upper
End is equipped with lifting locating slide rod, and the lower end of the monitoring station is equipped with lifting locating sleeve, the lifting locating slide rod and the liter
Drop locating sleeve is mutually matched.
4. remote controlled reservoir comprehensive monitoring base station according to claim 1, it is characterised in that: monitoring station height control
System processed includes side plate, magnet steel floating ball and infrared distance sensor, and the side plate is installed on the side of the monitoring station, institute
The surface for stating side plate is equipped with sliding slot, and the sliding slot is from top to bottom arranged, and connecting rod, the connecting rod are connected on the magnet steel floating ball
It is equipped with sliding mouth, the wall of the cunning mouth and the sliding slot is mutually matched;The infrared distance sensor is installed on the monitor
Lower end, the infrared distance sensor is arranged downward, the magnet steel floating ball and the infrared distance sensor consistency from top to bottom, institute
It states infrared distance sensor and connects the signal identification module.
5. remote controlled reservoir comprehensive monitoring base station according to claim 1, it is characterised in that: the monitoring mould group
Including water injection pipe, pH test chamber, dissolved oxygen test chamber, suspended matter determination chamber, total nitrogen total phosphorus measurement chamber and outlet pipe, the water filling
Pipe connects the pH test chamber, the dissolved oxygen test chamber, the suspended matter determination chamber, the total nitrogen total phosphorus by penstock
Chamber is measured, solenoid valve is respectively connected on the penstock, the Centralized Controller includes timing detection control module, described fixed
When detection control module control the solenoid valve;The outlet pipe connects the pH test chamber, the dissolution by water output duct
Oxygen test chamber, the suspended matter determination chamber, the total nitrogen total phosphorus measure chamber, are equipped with suction pump, the pumping on the outlet pipe
Water pump is controlled by timing detection control module, is connected with check valve on the water output duct.
6. remote controlled reservoir comprehensive monitoring base station according to claim 5, it is characterised in that: the pH test chamber
Cavity in include the first check bit, the first water inlet pipe and the first outlet pipe, be incorporated with pH detector in the pH test chamber,
The test side of the pH detector is protruded into first check bit, and one end connection water inlet of first water inlet pipe is led
Pipe, the other end of first water inlet pipe are connected to the upper end of first check bit, one end connection of first outlet pipe
In the lower end of first check bit, the other end of first outlet pipe connects the water output duct, the pH detector by
The timing detection control module control, the pH detector connect the signal identification module.
7. remote controlled reservoir comprehensive monitoring base station according to claim 5, it is characterised in that: the dissolved oxygen inspection
Surveying in the cavity of chamber includes the second check bit, the second water inlet pipe and the second outlet pipe, is incorporated in the dissolved oxygen test chamber
Dissolved oxygen meter, the test side of the dissolved oxygen meter are protruded into second check bit, and the one of second water inlet pipe
End connects the penstock, and the other end of second water inlet pipe is connected to the upper end of second check bit, and described second
One end of outlet pipe is connected to the lower end of second check bit, and the other end connection water outlet of second outlet pipe is led
Pipe, the dissolved oxygen meter are controlled by timing detection control module, and the dissolved oxygen meter, which connects the signal, to be known
Other module.
8. remote controlled reservoir comprehensive monitoring base station according to claim 5, it is characterised in that: the suspended matter is surveyed
Determine intracavitary to include third check bit, third water inlet pipe and third outlet pipe, the intracavitary photoelectricity that is incorporated with of the suspended matter determination hangs
Floating object analyzer, the photoelectricity suspended matter determination instrument include transmitter and detector, and the transmitter and the detector are equal
It is installed in third check bit;One end of the third water inlet pipe connects the penstock, the third water inlet pipe it is another
End is connected to the upper end of the third check bit, and one end of the third outlet pipe is connected to the lower end of the third check bit,
The other end of the third outlet pipe connects the water output duct, and the photoelectricity suspended matter determination instrument is detected by the timing and controlled
Module control, the photoelectricity suspended matter determination instrument connect the signal identification module.
9. remote controlled reservoir comprehensive monitoring base station according to claim 5, it is characterised in that: the total nitrogen total phosphorus
Measuring intracavitary includes the 4th check bit, the 4th water inlet pipe and the 4th outlet pipe, and the total nitrogen total phosphorus measurement is intracavitary to be incorporated with always
Nitrogen total phosphorus determination instrument, the total nitrogen total phosphorus analyzer include four-way measurement head, there are four the surrounding of four-way measurement head includes
Determination part is equipped with planchet in four determination parts, and the planchet opens wide, and rubber is laid at the planchet open ports
Pad;One end of 4th water inlet pipe connects the penstock, and the other end of the 4th water inlet pipe is connected to the described 4th
The upper end of check bit, one end of the 4th outlet pipe are connected to the lower end of the 4th check bit, the 4th outlet pipe
The other end connects the water output duct, and the total nitrogen total phosphorus analyzer is controlled by timing detection control module, the total nitrogen
Total phosphorus determination instrument connects the signal identification module.
10. remote controlled reservoir comprehensive monitoring base station according to claim 1, it is characterised in that: the signal is known
Other module includes signal conversion circuit, signal recognition circuit, logic control circuit, lift adjustment circuit and signal circuit,
The signal conversion circuit is separately connected the signal recognition circuit and the signal circuit, and the signal recognition circuit connects
Connect the logic control circuit, the signal circuit connects the communication module, described in the logic control circuit connection
Lift adjustment circuit, elevating control module described in the lift adjustment circuit connection.
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Denomination of invention: Reservoir integrated monitoring base station with remote control Effective date of registration: 20220720 Granted publication date: 20220111 Pledgee: Zhejiang Chouzhou Commercial Bank Co.,Ltd. Lishui branch Pledgor: ZHEJIANG JINGCHANG CONSTRUCTION Co.,Ltd. Registration number: Y2022330001475 |
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