CN106501222A - Separation detecting system and its using method - Google Patents
Separation detecting system and its using method Download PDFInfo
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- CN106501222A CN106501222A CN201611005428.0A CN201611005428A CN106501222A CN 106501222 A CN106501222 A CN 106501222A CN 201611005428 A CN201611005428 A CN 201611005428A CN 106501222 A CN106501222 A CN 106501222A
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D19/00—Degasification of liquids
- B01D19/02—Foam dispersion or prevention
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B08—CLEANING
- B08B—CLEANING IN GENERAL; PREVENTION OF FOULING IN GENERAL
- B08B9/00—Cleaning hollow articles by methods or apparatus specially adapted thereto
- B08B9/02—Cleaning pipes or tubes or systems of pipes or tubes
- B08B9/021—Cleaning pipe ends or pipe fittings, e.g. before soldering
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F1/00—Treatment of water, waste water, or sewage
- C02F1/20—Treatment of water, waste water, or sewage by degassing, i.e. liberation of dissolved gases
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N1/00—Sampling; Preparing specimens for investigation
- G01N1/28—Preparing specimens for investigation including physical details of (bio-)chemical methods covered elsewhere, e.g. G01N33/50, C12Q
- G01N1/34—Purifying; Cleaning
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N21/00—Investigating or analysing materials by the use of optical means, i.e. using sub-millimetre waves, infrared, visible or ultraviolet light
- G01N21/01—Arrangements or apparatus for facilitating the optical investigation
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N21/00—Investigating or analysing materials by the use of optical means, i.e. using sub-millimetre waves, infrared, visible or ultraviolet light
- G01N21/17—Systems in which incident light is modified in accordance with the properties of the material investigated
- G01N21/59—Transmissivity
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N21/00—Investigating or analysing materials by the use of optical means, i.e. using sub-millimetre waves, infrared, visible or ultraviolet light
- G01N21/01—Arrangements or apparatus for facilitating the optical investigation
- G01N2021/0106—General arrangement of respective parts
- G01N2021/0112—Apparatus in one mechanical, optical or electronic block
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- Life Sciences & Earth Sciences (AREA)
- Health & Medical Sciences (AREA)
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- Engineering & Computer Science (AREA)
- General Health & Medical Sciences (AREA)
- Biochemistry (AREA)
- Analytical Chemistry (AREA)
- Environmental & Geological Engineering (AREA)
- Molecular Biology (AREA)
- Biomedical Technology (AREA)
- Dispersion Chemistry (AREA)
- Organic Chemistry (AREA)
- Water Supply & Treatment (AREA)
- Hydrology & Water Resources (AREA)
- Chemical Kinetics & Catalysis (AREA)
- Mechanical Engineering (AREA)
- Sampling And Sample Adjustment (AREA)
Abstract
The invention discloses a kind of separation detecting system; separation detecting system includes outer containment vessel, separator and detector; separator and detector are respectively positioned in outer containment vessel; separate core is provided with separator; by the upper and lower separating plate of separate core; realize that insoluble floating thing is contrary with the water (flow) direction of sampling; play the purpose of sharp separation; cyclone separator arrangement is compact, quickly can separate floating thing insoluble for bubble in circulating water etc.; examination criteria is reached, the purpose of real-time online detection is realized;Second gas outlet of detector can carry out jet to the exit of outlet pipe, the cotton-shaped impurity of viscosity be blown off by atmospheric pressure, prevent detector not water flowing rear impurity in water outlet pipe part fouling, reduce cleaning and frequency of maintenance, improve detector service life.
Description
Technical field
The present invention relates to water quality monitoring field, more particularly to a kind of separation detecting system, and separation detecting system makes
Use method.
Background technology
China is fabric clothing production maximum in the world and exported country, and therefore dyeing is closely bound up therewith, and
Dyeing is water consumption rich and influential family, and wastewater discharge and the total amount of pollutant occupy the second and the 4th of national industrial department respectively
Position, is that China causes one of key industry of water pollution.Compared with the pollutant effluents of other industry, dyeing waste water has waste water
Discharge capacity is big, color depth, and hardly degraded organic substance content is high, the features such as water quality is unstable.
For the process problem of dyeing waste water, existing treatment technology mainly passes sequentially through materializing strategy, biochemical treatment pair
Treatment of dyeing wastewater, so as to harmful substance of degrading, reaches discharge standard.For the materializing strategy of current dyeing waste water, existing
Materializing strategy operation is completed by operator's manual operations substantially.First dyeing waste water is introduced in pond, because dyeing waste water
PH do not know, therefore general first adjust pH to alkalescence with Calx, adding ferrous sulfate carries out flocculation sediment process to waste water.
At present the process of dyeing waste water early stage is needed to judge whether fully flocculation occur according to naked eyes, if fully do not flocculated, then just
Show that we go wrong in processing procedure Chinese medicine addition, be not adjusted in place.Generally, pH is adjusted in 9-11
Just can fully flocculate, supernatant is driven off through sedimentation tank.
For problem as above, notification number discloses one kind for CN203238083U Chinese patents and automatically adjusts process medicine
The treatment of dyeing wastewater equipment of dosage, but in actual process, due to being easy to by impurity in pH meter insertion dyeing waste water
Blocking, causes pH meter measured value and actual value excessive deviation occur, and pH value is nonlinear, and control accuracy requires pole
Height, causes control system framework unstable.
Certainly, the Chinese invention patent prospectus of 104034702 A of Publication No. CN disclose one kind and are used for examining
The detection box of dyeing waste water transmittance is surveyed, the detection box not only directly can carry out transmittancy inspection to the dyeing waste water entered in which
Survey, the strong and weak signal of light is measured as available control signal, isolate supernatant clarity to express, and be used for replacing people
Whether eye observation dyeing waste water fully flocculates.But when considering detection, dyeing waste water is easily on light source and photoinduction element surface
Knot is dirty, causes transmittance and the dual decline of photoperceptivity, this detection box in detection accuracy and stability be not fine, and
And also there are the problems such as ruggedness, detachable maintaining is cumbersome.
Meanwhile, how the detection box prevents its fouling in use for some time, and the problem of a more headache.
Secondly as common separation is separated by the way of precipitation, therefore separation process more time-consuming, and
And the impact detection of the floating things such as insoluble bubble in water, may be contained.
Content of the invention
The goal of the invention of the present invention is above-mentioned in order to solve the problems, such as, there is provided a kind of separation detecting system, including separator
And detector, cyclone separator arrangement is compact, quickly can separate floating thing insoluble for bubble in circulating water etc., reaches
Examination criteria, realizes the purpose of real-time online detection;The exit of outlet pipe can be sprayed second gas outlet of detector
The cotton-shaped impurity of viscosity is blown off by gas by atmospheric pressure, is prevented detector not water flowing rear impurity in water outlet pipe part fouling, is reduced
Cleaning and frequency of maintenance, improve detector service life.
In order to realize foregoing invention purpose, technical scheme below is present invention employs:
Separation detecting system, is respectively positioned on outer containment vessel including outer containment vessel, separator and detector, separator and detector
Interior;
The separator, including tubular separate housing and separate core, separate core is wrapped in inside separate housing;Institute
State, described enter water top cover with separate housing in concentric hollow circular cylinder for waiting circle, institute
State sampling water water inlet to be located on the side wall of water top cover, the diapire for entering water top cover is provided with top cover water filling port, top cover water filling port
Opening on along higher than sampling water water inlet upper edge;The lower separating plate is provided with lower plate water filling port, the top cover water filling port
It is provided with and lower plate water filling port between for connecting the waterflood path of the two;The separate core includes lower separating plate, upper separating plate
With for supporting the riser of upper and lower separating plate, lower separating plate to be obliquely installed towards equidirectional with upper separating plate, lower separating plate is located at
Separate housing bottom, lower separating plate periphery are connected with separate housing inner wall sealing, and lower separating plate upper end is offered for fluid upwards
The lower plate exit for passing through, the upper separating plate are located above lower separating plate, and upper separating plate periphery is connected with separate housing inner wall sealing
Connect, upper separating plate upper end offer for fluid upwardly through the outlet of cotton-shaped mud, cotton-shaped mud exit opening upward and is located at and separates
Case top;Be additionally provided with detection water outlet on the separating husk body sidewall, detection water outlet be located at upper separating plate lower end and
Between lower separating plate lower end;Waste discharge outlet is additionally provided with separating husk body sidewall, is additionally provided with drainage channel in separate core, described
Waste discharge outlet and cotton-shaped mud outlet, the waste discharge outlet are located at the top of upper separating plate lower end by drainage channel;Wadding
Upper edge of the shape mud exit position higher than waste discharge outlet;Upward, position is higher than detection water outlet upper edge for lower plate exit.
The detector, including detect housing, light source, photoreceiver and for water sample circulation flowing more thread a pipe;Institute
State flowing is threaded a pipe including outlet pipe and water inlet pipe more, water inlet pipe is connected with outlet pipe, siphunculus of the outlet pipe for two ends insertion,
The light emission direction of light source, outlet pipe and photoreceiver are substantially on the same line;Stay between the light source and outlet pipe one end
There is the first overboard gap;The second overboard gap is left between photoreceiver and the other end of outlet pipe;The light of the light source
Run through in outlet pipe and expose to photoreceiver, the detection enclosure interior is additionally provided with the second admission gear, and second enters mechanism of qi
Structure includes that the second air inlet, the second inlet channel and the second gas outlet, the second inlet channel connection the second air inlet and second go out
QI KOU, the second air inlet are located at detection housing exterior walls, exit of second gas outlet towards outlet pipe;Detection housing bottom also sets
There is the outlet flowed out for water sample;The detection housing includes lid and lower cover, and flowing is threaded a pipe more, light source, photoreceiver
It is located between lid and lower cover;Second admission gear is located inside upper lid.First is additionally provided with the upper lid and enters mechanism of qi
Structure, the first admission gear include that the first air inlet, the first inlet channel and two the first gas outlets, the first air inlet pass through first
Inlet channel is respectively communicated with two the first gas outlets, and described two first gas outlets are located at light source respectively and photoreceiver is located
Side.
Also include for taking oral siphon, detection pipe, gas tube, separator waste pipe and the detector waste pipe of water sample;
Oral siphon is connected with the sampling water water inlet of separator, and the two ends of detection pipe are connected to the detection water outlet and printing opacity of separator
Between the water inlet pipe of degree detector;Gas tube quantity has two, and two gas tubes enter with the first of transmittance detector respectively again
QI KOU, the connection of the second air inlet, the input of separator waste pipe are connected with the waste discharge outlet of separator, detector waste pipe
Input be connected with the outlet of detector.
Preferably, set casing is equipped with outside light source and photoreceiver, the rounded tubular of the set casing, upper lid and lower cover
The semi-circular groove that installs for set casing is provided with, set casing lateral wall is additionally provided with fixed fin, and set casing is convex by the fixation
Rib is sandwiched between lid and lower cover.
Preferably, the bracket for increasing flowing fixed effect of threading a pipe, the bracket bag are additionally provided with the detection housing more
Saddle and frame plate is included, the passage for water sample circulation between frame plate and lower cover bottom, is left, saddle is mutually fixed with frame plate, and frame plate is with
Lid connection, pallet upper surface are provided with the groove of mating shapes of threading a pipe with the flowing more, and flowing threads a pipe by described
Groove is fitted on the bracket.
Preferably, be additionally provided with the upper lid corresponding with the saddle present a theatrical performance as the last item on a programme, the lower surface of presenting a theatrical performance as the last item on a programme is provided with groove,
The groove is mutually agreed with many siphunculus pipeline outer walls that flow, and flowing threads a pipe in the groove between being embedded at saddle and presenting a theatrical performance as the last item on a programme.
Preferably, threading a pipe the flowing more also include the scale removal pipe flowed into for scale remover, scale removal pipe and outlet pipe,
Water inlet pipe is connected, and flowing threads a pipe in cross.
Preferably, the waterflood path is provided with bucket-shaped pipeline, waterflood path flow area face with top cover water filling port junction
Product is less than top cover water filling port bore.
Preferably, waterflood path section semicircular in shape.
Preferably, the drainage channel open top is arranged, and drainage channel opening is communicated with the outlet of cotton-shaped mud, enters water top cover
It is provided with the middle part of diapire for the quick spilling water funnel that superfluous water is flowed into drainage channel, the spilling water funnel is opened positioned at drainage channel
Above mouthful, spilling water funnel is connected into water top cover inner chamber and drainage channel.
Preferably, the riser is provided with for increasing the breaker strip of structural strength along the edge of separate housing axis.
Preferably, it is provided between the riser for increasing the bridging board of structural strength.
Preferably, the separate core, separate housing and enter water top cover and be integrally formed setting.
Preferably, enter to be provided with opening at the top of water top cover cup-shaped, enter and at water top cover opening, be provided with dismountable capping.
In order to realize foregoing invention purpose, the invention allows for the using method of above-mentioned separation detecting system,
1) by fetching the water sample with gases at high pressure, water sample is accessed water inlet into water top cover by oral siphon, water sample according to
Secondary by water inlet, top cover water filling port, waterflood path, lower plate water filling port, water sample is flowed out to up to separate core by lower plate water filling port
Bottom;
2) enter the water sample of separate core bottom, downward plate exit is moved in the presence of hydraulic pressure, water sample and therein not
Dissolving floating thing is moved to lower plate exit along lower separating plate;
3) water sample and insoluble floating thing therein are moved from lower plate exit to the outlet of cotton-shaped mud, due to not dissolving floating thing
It is subject to buoyancy upwards wave straight up;
4) water sample sample is extracted in detection passage of the water outlet between upper and lower separating plate, contain in the water sample being extracted
There is a small amount of insoluble floating thing, water sample is floated in moving process due to the channel slopes between upper and lower separating plate downwards
Thing is continued to move up, and floating thing stops when reaching upper separating plate to the outlet movement of detection water, and floating thing is by buoyancy afterwards
Along upper separating plate slowly to the outlet movement of cotton-shaped mud;Due to water sample moving direction with offscum moving direction conversely, reaching secondary point
From purpose;
5) floating thing of cotton-shaped mud outlet is concentrated in the flow process of follow-up water sample, and water level rises to be brought into floating thing
In drainage channel, the floating thing entered in drainage channel flows through waste discharge outlet, enters separator waste pipe and flows out;
6) water sample extracted from the detection water outlet of separator, is transported to the water inlet pipe of detector by detection pipe,
In detector, water sample is flowed out by outlet pipe exit;
7) gases at high pressure are passed through into the second air inlet and the first air inlet, and gases at high pressure are by the second inlet channel by the
Two gas outlets spray, and the dirts such as silt are pushed away using gases at high pressure by gases at high pressure towards outlet pipe outlet injection;Gases at high pressure
Sprayed by the first gas outlet by the first inlet channel, can by hydraulic pressure spray to when too high the water column of light source or photoreceiver to
Push, it is to avoid light source or photoreceiver contamination dirt and water stain;
8) light source launches light to outlet pipe, and light completely penetrates through the water sample in outlet pipe, and exposes to photoreceiver
On, photoreceiver will transmit through the light of water sample and carry out the detection of intensity of illumination, converse the transmittance of water sample;
9) lower cover bottom is flowed to by the water sample flowed out in outlet pipe, and is flowed out from the outlet of bottom, detection is finished
Water sample is flowed out from detector waste pipe, completes water quality transmittance detection process.
Compared with prior art, the separation detecting system of above-mentioned technical proposal is employed, is had the advantages that:
Separator in the present invention has the following advantages:
First, the lower separating plate in separate core makes the interior floating thing of water sample carry out concentrating on lower plate exit, upper separating plate
Offscum in the water sample of extraction is separated, most of insoluble floating particle thing can be filtered out;Detection water outlet
It is located between two lower ends of upper and lower separating plate, when detecting that water outlet extracts water sample, through the current edge that lower separating plate is filtered
Separating plate to the outlet flowing of detection water, offscum is moved up along upper separating plate by buoyancy, current flow direction
With offscum moving direction conversely, further strengthening separating, become apparent from separating effect.
2nd, offscum timely can be discharged by waste discharge outlet by drainage channel and cotton-shaped mud outlet, it is to avoid point
In off-chip body, offscum is piled up affects detection data, and the data for obtaining detection are more accurately and reliably.
If three current enter separate core (similar to pouring in teacup) from top, the current of entrance can be by liquid
The offscum of the separator well on surface is brought in water again, causes separation efficiency low.Therefore the water inlet in the present invention is located at
The bottom of separate housing, carries out water filling by the bottom up of separate core, and the direction of motion of offscum is always held at prolonging current fortune
Dynamic direction, the motion of offscum are less, quickly can be separated water along separating plate, and separation efficiency is fast at high speed, can reach
The purpose detected to Water quality online by real-time continuous.
4th, the passage that upper and lower separating plate, drainage channel, the outlet of cotton-shaped mud and detection water outlet draw water is integrated in
In one separate core, separate core outer wrap tubular separate housing effectively reduces the volume of whole separator, effectively drops
Low spatial occupation rate.
Appliance in the present invention has the following advantages:
First, the structure setting of transmittance detector be will be separately positioned to light source, outlet pipe and photoreceiver so that light source
The first overboard gap is left between outlet pipe one end;Leave between photoreceiver and the other end of outlet pipe second overboard between
Gap;The light of light source by air first through the first overboard gap, then through the water in outlet pipe, then printing opacity to cross second overboard
Air in gap, finally injects photoreceiver, and this structure setting can avoid outlet pipe water column out from flowing to light source
Or photoreceiver, to protect light source and photoreceiver to exempt from water stain and dirt and be infected with and affect translucent effect, raising is detected
Stability and accuracy;Outlet pipe not only causes outlet pipe to be difficult to fouling and clogging for the siphunculus of two ends insertion, but also reduces being somebody's turn to do
The cleaning frequency of the transmittance detector to outlet pipe, while also extending the service life of transmittance detector, that is, improves durable
Property.
2nd, the dirts such as the viscosity mud in outlet pipe exit can be blown by the high velocity air that the second gas outlet produces
Dynamic so as to which that movement avoids viscosity mud from adhering to water outlet pipe surface, it is to avoid outlet pipe exit scale formation, reduce cleaning time
Number, extends maintenance cycle.
Description of the drawings
Fig. 1 is the structural representation of separation detecting system embodiment of the present invention;
Fig. 2 is the structural representation of separation detecting system embodiment of the present invention;
Fig. 3 is the structural representation of separator in embodiment;
Fig. 4 is the sectional side view of separator in embodiment;
Fig. 5 is the structure broken away view of separator in embodiment;
Sectional side views of the Fig. 6 for Fig. 5;
Fig. 7 is the structural representation of separate core in separator in embodiment;
Fig. 8 is the structural representation of separate core in separator in embodiment;
Fig. 9 is the partial enlarged drawing in Fig. 7 at A;
Figure 10 is the partial enlarged drawing in Fig. 8 at B;
Figure 11 is the schematic diagram (cotton-shaped mud outlet water level is exported higher than particle) of separator in embodiment;
Figure 12 is the schematic diagram (cotton-shaped mud outlet water level is exported less than particle) of separator in embodiment;
Figure 13 is the schematic diagram (water inlet water filling overfill) of separator in embodiment;
Figure 14 is the structural representation of detector in the present embodiment;
Figure 15 is the fractionation schematic diagram of detector in the present embodiment;
Figure 16 is the principle schematic of detector in the present embodiment;
Figure 17 is superstructure schematic diagram in detector in the present embodiment;
Figure 18 is the sectional view of first, second admission gear of upper lid in detector in the present embodiment;
Figure 19 is that detector internal structure splits schematic diagram in the present embodiment;
Figure 20 is that the circulation duct in the present embodiment in detector is arranged on the scheme of installation on bracket.
Reference:1st, oral siphon;2nd, waste pipe;2a, separator waste pipe;2b, detector waste pipe;3rd, detection pipe;
4th, gas tube;5th, outer containment vessel;6th, scale removal extension tube attached;A, separator;B, detector;
A1, capping;A2, enter water top cover;A20, sampling water water inlet;A21, top cover water filling port;A3, separate core;a30、
Waterflood path;A32, lower separating plate;A320, lower plate exit;A321, lower plate water filling port;A33, upper separating plate;A330, cotton-shaped mud
Outlet;A331 particles are exported;A34, detection water outlet;A35, waste discharge outlet;A36, draining leg;A360, heighten
Baffle plate;A37, drainage channel;A4, separate housing;A40, reinforcement;A41, bridging board;A42, breaker strip;A5, spilling water funnel.;
B1, upper lid;B11, the first air inlet;B110, the first gas outlet;B111, the first inlet channel;B12, the second air inlet
Mouthful;B120, the second gas outlet;B121, the second inlet channel;13rd, present a theatrical performance as the last item on a programme;B2, lower cover;B20, outlet;B3, many siphunculus of flowing
Road;B30, water inlet pipe;B31, scale removal pipe;B32, outlet pipe;B4, light source;B40, fixed fin;B5, photoreceiver;B50, solid
Determine fin;B6, bracket;B60, saddle;B61, frame plate.
Specific embodiment
Below in conjunction with the accompanying drawings the present invention is described further.
A kind of separation detecting system as shown in Fig. 1 to 18, including outer containment vessel 5, separator a and detector b, separator
A and detector b are respectively positioned in outer containment vessel 5;Outer containment vessel is used for placing separator a and detector b, protection separator and detection
Outside device is not exposed to, lower aging increasing the service life.
Separator:
As shown in Fig. 3 to 13, a kind of separator, including tubular separate housing a4 and separate core a3, separate core a3 quilts
It is wrapped in inside separate housing a4, separate housing a4 bottom is provided with water inlet;
Separate core a3 includes lower separating plate a32, upper separating plate a33 and the riser for supporting upper and lower separating plate, lower point
From plate a32 and upper separating plate a33 towards equidirectional inclination, lower separating plate a32 is located at separate housing a4 bottom, lower separating plate a32
Periphery is connected with separate housing a4 inner wall sealing, lower separating plate a32 upper ends offer for fluid upwardly through lower plate exit
a320.
Upper separating plate a33 is located above lower separating plate a32, and upper separating plate a33 peripheries are connected with separate housing a4 inner wall sealing
Connect, upper separating plate a33 upper ends offer for fluid upwardly through cotton-shaped mud outlet a330, cotton-shaped mud outlet a330 is located at and separates
Above housing a4.
Detection water outlet a34 is additionally provided with the wall of separate housing a4 side, and detection water outlet a34 is located at upper separating plate a33
Between lower end and lower separating plate a32 lower ends.
Waste discharge outlet a35 is additionally provided with the wall of separate housing a4 side, drainage channel a37 is additionally provided with separate core a3, is arranged
Waste discharge outlet a35 is connected by aquaporin a37 with cotton-shaped mud outlet a330, is provided with draining leg a36, draining in separate core a3
Leg a36 surrounds drainage channel a37 jointly with upper separating plate a33;Waste discharge outlet a35 is located at the upper of upper separating plate a33 lower ends
Side.
It is additionally provided with the top of separate housing a4 into water top cover a2, enters water top cover a2 with separate housing in the concentric hollow circle for waiting circle
Cylinder, sampling water water inlet a20 are located on the side wall of water top cover a2, and the diapire for entering water top cover a2 is provided with top cover water filling port a21,
Lower separating plate a32 is provided with lower plate water filling port a321, is provided with for connection two between top cover water filling port a21 and lower plate water filling port a321
The waterflood path a30 of person.
The relative sides of cotton-shaped mud outlet a330 are additionally provided with particle outlet a331, and particle outlet a331 is provided with can Heighten baffle plate a360, suspended particulate outlet a331 and drainage channel a37 to slide for what regulate that suspended particulate goes out open height;
As is illustrated by figs. 11 and 12, water to be detected is entered by the sampling water water inlet a20 entered on water top cover a2, Zhi Houyi
Secondary flowed out in separate core bottom by top cover water filling port a21, waterflood path a30 and lower plate water filling port a321, to be detected afterwards
Current prolong lower separating plate a32 and tilt upward movement, due to detecting that water outlet a34 is extracting current, through lower plate exit
A320 current are produced with the flow direction of offscum and are separated, and current are entered between upper and lower separating plate, and offscum then continues to move up drift
A330 is exported floating to cotton-shaped mud.
And the current that water outlet a34 is extracted are detected, still there is a small amount of insoluble floating in moving process
Grain, during detection water outlet a34 is moved to, which is moved along upper separating plate a33, insoluble floating particle therein
Prolong upper separating plate a33 and be moved to cotton-shaped mud outlet a330, equivalent to being separated twice altogether, it is possible to achieve offscum is fast with water
Speed is separated, and realizes the purpose of water quality real-time monitoring.
As the continuation of current is injected, the offscum at cotton-shaped mud outlet a330 is entered in drainage channel a37, and along draining
Passage a37 flows to waste discharge outlet a35 and flows out detection housing.
As shown in figs, particle outlet a331 is provided with and heightens baffle plate a360, and heightening baffle plate a360 can control
Whether the main flow direction of current, so as to be controlled to the suspended material in current, control its internal suspended material and will
Enter testing process.
As shown in figure 11, when heightening baffle plate a360 and being adjusted up height, the height of particle outlet a331 is higher than wadding
Shape mud exports the height of a330, and current are flowed out by cotton-shaped mud outlet a330, and the main flow direction of current is to be flowed to by lower plate exit a320
Cotton-shaped mud exports a330, and the insoluble floating particle and suspended particulate substance in current is flowed out from cotton-shaped mud outlet a330, detection
When water outlet a34 extracts detection water sample, the suspended particulate substance of extraction is less, can be used for detecting that the soluble substance in water sample contains
Amount, can be used for the transmittance for detecting water sample in the present invention, and so as to judge sewage, whether dosing is suitable, flocculates completely.
As shown in figure 12, when heightening baffle plate a360 and adjusting height downwards, the height of particle outlet a331 is less than wadding
Shape mud exports the height of a330, and current are flowed out by particle outlet a331, and the main flow direction of current is to be passed through by lower plate exit a320
Cross detection water outlet a34 and flow to particle outlet a331, the insoluble floating particle in current is in lower plate exit a320
Place moves up, and concentrates at cotton-shaped mud outlet a330, and wherein suspended particulate substance can move over detection water with current
Outlet a34, suspended particulate substance of the meeting containing more amount in the water sample for now extracting can be used for detecting water containing suspended particulate substance
The transmittance of sample, judges whether water process is abnormal.
Drainage channel a37 open tops are arranged, and drainage channel a37 openings are communicated with cotton-shaped mud outlet a330, enter water top cover
It is provided with the middle part of a2 diapires for the quick spilling water funnel a5 that superfluous water is flowed into drainage channel, spilling water funnel a5 is located at drainage channel
A37 overthe openings, spilling water funnel a5 are connected into water top cover a2 inner chambers and drainage channel a37.
As shown in figure 13, when sampling water water inlet a20 water fillings are too fast, waterflood path a30 quickly cannot will enter water top
All water samples in lid a2 are completely fed in separate core, cause the water level into water top cover a2 to raise, when water level did not had spilling water to leak
Bucket a5 when, water flows to drainage channel a37 from spilling water funnel a5, and unnecessary water sample is excluded separator in time, it is to avoid water sample from point
Overflow in device, cause leak around, it is ensured that the safety for using.
Enter to be provided with opening at the top of water top cover a2 cup-shaped, enter and at water top cover a2 openings, be provided with dismountable capping a1.Capping
A1 can be opened and closed, and after opening capping a1, user can be to entering water top cover a2 and object in separate core is (such as spilling water funnel a5
With drainage channel a37 etc.) operated, can with dredge blockage, heighten baffle plate a360 height etc..
Waterflood path a30 is provided with bucket-shaped pipeline 300, waterflood path a30 flow areas face with top cover water filling port a21 junctions
Product is less than top cover water filling port a21 bores.Waterflood path a30 sections semicircular in shape.
If top cover water filling port a21 narrowed to the flow area moment of waterflood path a30 current, easily cause in water sample
Silt etc. blocks waterflood path a30, therefore by setting up bucket-shaped pipeline 300 for transition, accelerates bucket-shaped 300 transition position of pipeline
Flowing velocity, enables silt quickly to flow, prevents trapping phenomena, it is to avoid blocking.
As shown in Figure 7 and Figure 8, riser is provided with for increasing the breaker strip of structural strength along the edge of separate housing axis
A42, by setting up breaker strip a42, forms three arms of angle, effectively prevents from rupturing.It is provided between riser for increasing structural strength
Bridging board a41, bridging board a41 connect each adjacent riser, strengthen connection and improve intensity.Between riser and separate housing bottom surface
It is additionally provided with for increasing the reinforcement a40 of structural strength.
Separate core a3, separate housing a4 and enter water top cover a2 and be integrally formed setting, due to separate core a3 structure compared with
For complexity, need to print separate core a3 by 3D printer, after being integrally formed setting, in passing by separate core a3 phases
Separate housing a4 even and enter water top cover a2 while being printed, the sealing of separator can be effectively improved.
Detector:
Refering to the detector shown in Figure 14 to Figure 20, it includes detecting housing, light source b4, photoreceiver b5 and supplies water sample
Thread a pipe the flowing of circulation b3 more.Wherein:
The flowing b3 that threads a pipe includes that outlet pipe b32 and water inlet pipe b30, water inlet pipe b30 are connected with outlet pipe b32, are gone out more
Siphunculus of the water pipe b32 for two ends insertion, the light emission direction of light source b4, outlet pipe b32 and photoreceiver b5 are substantially with always
On line.The first overboard gap is left between above-mentioned light source b4 and outlet pipe b32 one end.Photoreceiver b5 and outlet pipe b32's
The second overboard gap is left between the other end.The light of above-mentioned light source b4 in outlet pipe b32 and exposes to photoreceiver
B5, above-mentioned detection enclosure interior are additionally provided with the second admission gear, and the second admission gear includes the second air inlet b12, the second air inlet
Passage b121 and the second gas outlet b120, the second inlet channel b121 connect the second air inlet b12 and the second gas outlet b120, the
Two air inlet b12 are located at detection housing exterior walls, exits of the second gas outlet b120 towards outlet pipe b32.Detection housing bottom
It is additionally provided with the outlet b20 flowed out for water sample.
Refering to shown in Figure 15, detection housing includes covering b1 and lower cover b2, the flowing b3 that thread a pipe, light source b4, photosensitive connects more
Receive device b5 to be located between lid b1 and lower cover b2, first, second admission gear is located inside upper lid b1, and lower cover b2 bottoms also set
There is the outlet b20 flowed out for water sample.Carry out waste water transmittance printing opacity detection work when, upper lid b1 installed in lower cover b2 it
On, flowing thread a pipe b3, light source b4, photoreceiver b5 are installed in detection housing more, and are arranged on intimate straight line
On, light source b4 reacts on photoreceiver b5 through the circulation sewage for threading a pipe 3 li more, carries out transmittance analysis, to detect
The transmittance of dyeing waste water.
During use, first, second admission gear is arranged at covering above b1, threads a pipe b3 into certain angle with flowing more
Degree, is passed through gases at high pressure into the first air inlet b11 and the second air inlet b12, and gases at high pressure pass through the second inlet channel b121
Sprayed by the second gas outlet b120, the dirts such as silt are pushed away using gases at high pressure by gases at high pressure towards outlet pipe outlet injection;
Gases at high pressure are sprayed by the first gas outlet b110 by the first inlet channel b111, can spray to light source or light when will be too high for hydraulic pressure
The water column of quick receptor is pressed downward, it is to avoid light source or photoreceiver contamination dirt and water stain.
During use, the outlet b20 that water sample flows out altogether is located at the right flank of lower cover b2, from bottom 10mm-15mm, outlet
Valve is also equipped with b20, and on the other hand the discharge after being on the one hand conducive to dyeing waste water to detect is turn avoid in detection
During dyeing and printing sewage spilling.
Refering to shown in Figure 19, the flowing b3 that threads a pipe is provided with the scale removal pipe b31, scale removal pipe b31 flowed into for scale remover more
Protection 5 outer wall of shell is extended to by scale removal extension tube attached 6, for the interpolation of scale remover.Scale removal pipe b31 and outlet pipe b32, water inlet
Pipe b30 is connected, and the flowing b3 that threads a pipe in cross more.Criss-cross design reduces the probability of line clogging.When flowing is led to more
After pipeline b3 is using a period of time, inner pipeline plug plug or when leaving fouling, can be passed through scale remover carries out scale removal, by internal incrustation
Fouling products in scale removal pipe b31 is being pushed away by dissolving by being passed through gases at high pressure to air inlet, when scale removal is carried out, water inlet pipe
B30 is not intake.
As shown in Figure 15 and Figure 19, set casing outside light source b4 and photoreceiver b5, is equipped with, the rounded tubular of set casing,
Be equipped with upper lid b1 and lower cover b2 for set casing install semi-circular groove, set casing lateral wall be additionally provided with fixed fin b40,
Fixed fin b50, set casing are stuck in semi-circular groove by the fixed fin b40, fixed fin b50, be clipped in lid b1 with
Between lower cover b2.Avoid in dyeing and printing sewage detection process, the rolling of flowing thread a pipe b3, light source b4 and photoreceiver b5 more
The dynamic impact to testing result, and then improve the accuracy rate of testing result.
As shown in figure 20, in dyeing and printing sewage detection process, the flowing b3 that threads a pipe is fixed on bracket b6 more, bracket
B6 is made up of saddle b60 and frame plate b61, leaves the passage for water sample circulation between frame plate b61 and lower cover b2 bottoms, and passage can be with
It is arranged to the inclined that from left to right dips down, so that dyeing and printing sewage trickles at outlet b20.Saddle b60 and frame plate b61 phases are solid
Fixed, can be made by welding, also can be connected by securing member.Frame plate b61 is connected with lower cover b2, and saddle b60 upper surfaces are provided with
Threading a pipe with the flowing groove of b3 mating shapes, the flowing b3 that thread a pipe are fitted in the bracket by the groove more more
On b6.
During use, the b13 that presents a theatrical performance as the last item on a programme corresponding with the saddle b60 in upper lid b1, is additionally provided with, b13 lower surfaces of presenting a theatrical performance as the last item on a programme are provided with recessed
Groove, groove b3 outer walls of threading a pipe with flowing mutually agree with more, the flowing b3 that thread a pipe more be embedded at saddle b60 and present a theatrical performance as the last item on a programme b13 it
Between groove in, with the stability of the b3 that thread a pipe that ensure to flow more.
In use or cleaning process, detect dyeing waste water transmittance transmittance detector on upper lid, lower cover b2 and
The b3 that threads a pipe detachable more for flowing, is conducive to detection and cleaning of the later stage to detector, improves the use of transmittance detector
In the life-span, reduce the use cost of enterprise.
As shown in figures 11 and 16, in the embodiment of the present invention separation detecting system using method:
1st, by the water sample with gases at high pressure is fetched, water sample is contained within cotton-shaped mud, and due to cotton-shaped mud drum, to wrap up in density after bubble little
Floated in water upwards, water sample to be detected is accessed water inlet a20 into water top cover a2 by oral siphon 1, water sample is passed sequentially through
Water inlet a20, top cover water filling port a21, waterflood path a30, lower plate water filling port a321, water sample are flowed out to by lower plate water filling port a321
Bottom up to separate core a3;
2nd, enter the water sample of separate core a3 bottoms, downward plate exit a320 is moved in the presence of hydraulic pressure, water sample and its
In insoluble floating thing be moved to lower plate exit a320 along lower separating plate a32;
3rd, water sample and insoluble floating thing therein are moved from lower plate exit a320 to cotton-shaped mud outlet a330, due to insoluble
Solution floating thing is subject to buoyancy upwards wave straight up;
4th, water sample sample is extracted in detection passages of the water outlet a34 between upper and lower separating plate, in the water sample being extracted
Containing a small amount of insoluble floating thing, water sample is floated in moving process due to the channel slopes between upper and lower separating plate downwards
Float is continued to move up, and floating thing stops moving to detection water outlet a34 when reaching upper separating plate a33, afterwards floating thing
A330 movements are slowly exported to cotton-shaped mud along upper separating plate a33 by buoyancy;Due to water sample moving direction and offscum moving direction
Conversely, reaching the purpose of secondary separation;
5th, the floating thing of cotton-shaped mud outlet a330 is concentrated in the flow process of follow-up water sample, and water level rises floating thing
Bring in drainage channel a37, the floating thing entered in drainage channel flows through waste discharge outlet a35, enter separator waste pipe 2a
And flow out;
6th, the water sample extracted from the detection water outlet a34 of separator a, by water inlet pipe from detection pipe 3 to detector b
B30 is transported, and in detector b, water sample is flowed out by outlet pipe b32 exits;
7th, gas tube 4 connects the positive pressure devices such as air pump, by gas tube 4 into the second air inlet b12 and the first air inlet b11
Gases at high pressure are passed through, gases at high pressure are sprayed by the second gas outlet b120 by the second inlet channel b121, gases at high pressure direction goes out
Water pipe b32 outlet injections, the dirts such as silt are pushed away using gases at high pressure;Gases at high pressure are by the first inlet channel b111 by the
One gas outlet b110 sprays, and can be pressed downward hydraulic pressure sprays to light source b4 or photoreceiver b5 water column when too high, it is to avoid light
Source b4 or photoreceiver b5 contamination dirts and water stain;
8th, light source b4 launches light to outlet pipe b32, and light completely penetrates through the water sample in outlet pipe b32, and exposes to light
On quick receptor b5, photoreceiver b5 will transmit through the light of water sample and carry out the detection of intensity of illumination, converse the printing opacity of water sample
Degree;
9th, lower cover b2 bottoms are flowed to by the water sample flowed out in outlet pipe b32, and is flowed out from the outlet b20 of bottom, inspection
Survey the water sample for finishing to flow out from detector waste pipe 2b, complete water quality transmittance detection process.
10th, the waste water flowed out by separator a and detector b, via separator waste pipe 2a and detector waste pipe 2b most
Converge to same waste pipe 2 eventually, flow to outside outer containment vessel 5.
The above makes the preferred embodiment of the present invention, for the person of ordinary skill of the art without departing from this
On the premise of bright principle, some modifications and improvement can also be made, these also should be regarded as protection scope of the present invention.
Claims (10)
1. separation detecting system, it is characterised in that:Including outer containment vessel (5), separator (a) and detector (b), separator (a)
It is respectively positioned in outer containment vessel (5) with detector (b);
A, the separator (a), including tubular separate housing (a4) and separate core (a3), separate core (a3) is wrapped in point
Shrinking away from theshell body (a4) is internal;
Be additionally provided with the top of separate housing (a4) into water top cover (a2), described enter water top cover (a2) with separate housing in concentric etc.
Round hollow circular cylinder, sampling water water inlet (a20) are located on the side wall of water top cover (a2), enter the bottom of water top cover (a2)
Wall is provided with top cover water filling port (a21), along the top higher than sampling water water inlet (a20) on the opening of top cover water filling port (a21)
Edge;Lower separating plate (a32) is provided with lower plate water filling port (a321), top cover water filling port (a21) and lower plate water filling port
(a321) it is provided between for connecting the waterflood path (a30) of the two;
- separate core (a3) includes lower separating plate (a32), upper separating plate (a33) and for supporting the vertical of upper and lower separating plate
Plate, lower separating plate (a32) are obliquely installed towards equidirectional with upper separating plate (a33), and lower separating plate (a32) is located at separate housing
(a4) bottom, lower separating plate (a32) periphery are connected with separate housing (a4) inner wall sealing, and lower separating plate (a32) upper end offers
For fluid upwardly through lower plate exit (a320),
- upper separating plate (a33) is located above lower separating plate (a32), and upper separating plate (a33) periphery is interior with separate housing (a4)
Wall is tightly connected, upper separating plate (a33) upper end offer for fluid upwardly through cotton-shaped mud outlet (a330), cotton-shaped mud outlet
(a330) opening up and be located at separate housing (a4) at the top of;
Detection water outlet (a34) is additionally provided with the wall of-separate housing (a4) sides, and detection water outlet (a34) is located at upper point
Between plate (a33) lower end and lower separating plate (a32) lower end;
It is additionally provided with the wall of-separate housing (a4) side in waste discharge outlet (a35), separate core (a3) and is additionally provided with drainage channel
(a37), waste discharge outlet (a35) is connected by drainage channel (a37) with cotton-shaped mud outlet (a330), the waste discharge outlet
(a35) top of upper separating plate (a33) lower end is located at;
Upper edge of cotton-shaped mud outlet (a330) position higher than waste discharge outlet (a35);Lower plate exit (a320) upward, position is high
In detection water outlet (a34) upper edge;
B, the detector (b), including detect housing, light source (b4), photoreceiver (b5) and for water sample circulation flowing many
Thread a pipe (b3);(b3) is threaded a pipe the flowing including outlet pipe (b32) and water inlet pipe (b30), water inlet pipe (b30) and water outlet more
Pipe (b32) is connected, siphunculus of the outlet pipe (b32) for two ends insertion, the light emission direction of light source (b4), outlet pipe (b32) and light
Quick receptor (b5) substantially on the same line;Leave between light source (b4) and outlet pipe (b32) one end first overboard between
Gap;The second overboard gap is left between the other end of photoreceiver (b5) and outlet pipe (b32);The light of light source (b4)
Run through in outlet pipe (b32) and expose to photoreceiver (b5), the detection enclosure interior is additionally provided with the second admission gear, the
Two admission gears include that the second air inlet (b12), the second inlet channel (b121) and the second gas outlet (b120), the second air inlet lead to
Road (b121) connects the second air inlet (b12) and the second gas outlet (b120), and the second air inlet (b12) is located at outside detection housing
Wall, the exit of the second gas outlet (b120) towards outlet pipe (b32);Detection housing bottom is additionally provided with the water outlet that flows out for water sample
Mouth (b20);
- detection the housing includes lid (b1) and lower cover (b2), and flowing is threaded a pipe (b3) more, light source (b4), photoreceiver
(b5) it is located between lid (b1) and lower cover (b2);It is internal that second admission gear is located at upper lid (b1).
The first admission gear is additionally provided with-upper lid (b1), the first admission gear includes that the first air inlet (b11), first enter
Gas passage (b111) and two the first gas outlets (b110), the first air inlet (b11) is by the first inlet channel (b111) difference
Two the first gas outlets (b110) of connection, described two first gas outlet (b110) are located at light source (b4) and photoreceiver respectively
(b5) side being located;
Also include for taking the oral siphon (1) of water sample, detection pipe (3), gas tube (4), separator waste pipe (2a) and detection
Device waste pipe (2b);Oral siphon (1) is connected with the sampling water water inlet (a20) of separator (a), the two ends connection of detection pipe (3)
Between detection water outlet (a34) of separator (a) and the water inlet pipe (b30) of transmittance detector (b);Gas tube (4) number
Amount has two, two gas tubes (4) the first air inlet (b11) respectively again with transmittance detector (b), the second air inlet
(b12) connect, the input of separator waste pipe (2a) is connected with the waste discharge outlet (a35) of separator, detector waste pipe
(2b) input is connected with the outlet (b20) of detector.
2. separation detecting system according to claim 1, it is characterised in that:Light source (b4) and photoreceiver (b5) are equal outward
Set casing is provided with, the rounded tubular of the set casing, upper lid (b1) and lower cover (b2) are provided with the semicircle that installs for set casing
Groove, set casing lateral wall are additionally provided with fixed fin (b40,50), and set casing is sandwiched in lid by the fixed fin (b40,50)
(b1) and lower cover (b2) between;Be additionally provided with the detection housing increases the bracket of flowing (b3) fixed effect of threading a pipe more
(b6), bracket (b6) includes saddle (b60) and frame plate (b61), leaves water supply between frame plate (b61) and lower cover (b2) bottom
The passage of sample circulation, saddle (b60) are mutually fixed with frame plate (b61), and frame plate (b61) is connected with lower cover (b2), saddle (b60) upper table
Face is provided with the groove of (b3) mating shapes of threading a pipe with the flowing more, and thread a pipe (b3) equipped by the groove more for flowing
On the bracket (b6).
3. separation detecting system according to claim 2, it is characterised in that:It is additionally provided with and the support in upper lid (b1)
What platform (b60) was corresponding presents a theatrical performance as the last item on a programme (b13), and described (b13) lower surface of presenting a theatrical performance as the last item on a programme is provided with groove, and the groove with flowing more threads a pipe
(b3) outer wall mutually agrees with, flowing thread a pipe (b3) be embedded in saddle (b60) and the groove presented a theatrical performance as the last item on a programme between (b13).
4. separation detecting system according to claim 1, it is characterised in that:Threading a pipe the flowing more (b3) also include
For the scale removal pipe (b31) that scale remover is flowed into, scale removal pipe (b31) is connected with outlet pipe (b32), water inlet pipe (b30), and flowing is led to more
Pipeline (b3) is in cross.
5. separation detecting system according to claim 1, it is characterised in that:Waterflood path (a30) and top cover water filling
Mouth (a21) junction is provided with bucket-shaped pipeline (a300), and waterflood path (a30) flow cross-section areas are less than top cover water filling port (a21)
Bore;Waterflood path (a30) section semicircular in shape.
6. separation detecting system according to claim 1, it is characterised in that:Drainage channel (a37) open top sets
Put, drainage channel (a37) opening is communicated with cotton-shaped mud outlet (a330), enter to be provided with the middle part of water top cover (a2) diapire and incite somebody to action for quick
Superfluous water flows into the spilling water funnel (a5) of drainage channel, and spilling water funnel (a5) is located at drainage channel (a37) overthe openings, overflows
Hyponome (a5) is connected into water top cover (a2) inner chamber and drainage channel (a37).
7. separation detecting system according to claim 1, it is characterised in that:Edge of the riser along separate housing axis
It is provided with for increasing the breaker strip (a42) of structural strength;It is provided between the riser for increasing the bridging board of structural strength
(a41).
8. separation detecting system according to claim 5, it is characterised in that:Separate core (a3), separate housing
(a4) and enter water top cover (a2) and be integrally formed setting.
9. separation detecting system according to claim 5, it is characterised in that:Enter to be provided with opening at the top of water top cover (a2) in cup
Shape, enters and is provided with dismountable capping (a1) at water top cover (a2) opening.
10. the using method of separation detecting system, it is characterised in that:
1) by the water sample with gases at high pressure is fetched, water sample is accessed the water inlet into water top cover (a2) by oral siphon (1)
(a20), water sample passes sequentially through water inlet (a20), top cover water filling port (a21), waterflood path (a30), lower plate water filling port (a321),
Water sample is flowed out to the bottom up to separate core (a3) by lower plate water filling port (a321);
2) enter the water sample of separate core (a3) bottom, downward plate exit (a320) is moved in the presence of hydraulic pressure, water sample and its
In insoluble floating thing be moved to lower plate exit (a320) along lower separating plate (a32);
3) water sample and insoluble floating thing therein are mobile to cotton-shaped mud outlet (a330) from lower plate exit (a320), due to insoluble
Solution floating thing is subject to buoyancy upwards wave straight up;
4) water sample sample is extracted in passage of detection water outlet (a34) between upper and lower separating plate, contain in the water sample being extracted
There is a small amount of insoluble floating thing, water sample is floated in moving process due to the channel slopes between upper and lower separating plate downwards
Thing is continued to move up, and floating thing stops, to detection water outlet (a34) movement, floating afterwards when reaching upper separating plate (a33)
Thing is slow mobile to cotton-shaped mud outlet (a330) along upper separating plate (a33) by buoyancy;As water sample moving direction is moved with offscum
Dynamic in opposite direction, reach the purpose of secondary separation;
5) floating thing of cotton-shaped mud outlet (a330) is concentrated in the flow process of follow-up water sample, and water level rises floating thing band
Enter the floating thing in drainage channel (a37), entering in drainage channel and flow through waste discharge outlet (a35), enter separator waste pipe
(2a) and flow out;
6) water sample extracted from detection water outlet (a34) of separator (a), by water inlet from detection pipe (3) to detector (b)
Pipe (b30) transport, in detector (b), water sample is flowed out by outlet pipe (b32) exit;
7) gas tube (4) is passed through gases at high pressure into the second air inlet (b12) and the first air inlet (b11), and gases at high pressure pass through
Second inlet channel (b121) is sprayed by the second gas outlet (b120), and gases at high pressure are sprayed towards outlet pipe (b32) outlet, by mud
The dirts such as sand are pushed away using gases at high pressure;Gases at high pressure are sprayed by the first gas outlet (b110) by the first inlet channel (b111)
Go out, hydraulic pressure sprays to light source (b4) or photoreceiver (b5) water column when too high can be pressed downward, it is to avoid light source (b4) or light
Quick receptor (b5) contamination dirt and water stain;
8) light source (b4) launches light to outlet pipe (b32), and light completely penetrates through the water sample in outlet pipe (b32), and exposes to
On photoreceiver (b5), photoreceiver (b5) will transmit through the light of water sample and carry out the detection of intensity of illumination, converse water sample
Transmittance;
9) lower cover (b2) bottom is flowed to by the water sample flowed out in outlet pipe (b32), and is flowed out from the outlet (b20) of bottom,
The water sample that detection is finished is flowed out from detector waste pipe (2b), completes water quality transmittance detection process.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201610734479 | 2016-08-26 | ||
CN2016107344790 | 2016-08-26 |
Publications (1)
Publication Number | Publication Date |
---|---|
CN106501222A true CN106501222A (en) | 2017-03-15 |
Family
ID=58324548
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201611005428.0A Withdrawn CN106501222A (en) | 2016-08-26 | 2016-11-11 | Separation detecting system and its using method |
Country Status (1)
Country | Link |
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CN (1) | CN106501222A (en) |
-
2016
- 2016-11-11 CN CN201611005428.0A patent/CN106501222A/en not_active Withdrawn
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