CN209247625U - A kind of micro-fluidic NH 3 flow path system - Google Patents

Abstract

The utility model relates to water quality monitoring fields.A kind of micro-fluidic NH 3 flow path system, including transfusion system, micro-fluidic chip and NH 3 device；Transfusion system includes clear water tube side, water sample tube side, reagent tube side, direct peristaltic pump and secondary peristaltic pump；Direct peristaltic pump is connect with water sample tube side and reagent tube side respectively, and the liquid feeding end of secondary peristaltic pump is connect with clear water tube side and water sample tube side respectively, and the outlet end of secondary peristaltic pump is connect with water sample tube side；Micro-fluidic chip includes glass-chip ontology, and glass-chip is set inside the body chip runner, and chip runner is connect with the first water sample tube side and reagent tube side respectively, and chip runner includes liquid input section, mixing section and liquid section out；Curve tube side is equipped in mixing section；Liquid section is connected with NH 3 device out.The beneficial effects of the utility model are: being miniaturized, facilitation, micro-sampling with reaching miniaturization, the purpose quickly detected automatically monitors Water quality ammonia nitrogen on-line.

Description

A kind of micro-fluidic NH 3 flow path system

Technical field

The utility model relates to water quality monitoring field more particularly to a kind of micro-fluidic NH 3 flow path systems.

Background technique

Ambient water quality monitors the major tasks for having become Environmental Protection in China field on-line.Ammonia nitrogen is as in conventional water quality monitoring One of the important indicator of nutrient salts, be even more widely used.But equipment is with big cabinet sequence sample introduction at this stage Based on monitoring, reagent consumption is at 1-2mL/ times.Reagent consumption is larger, and O&M cost is high, and to operation station condition It is more demanding, it is difficult to for such as sea, lake surface, the complex working conditions such as river shoal.And it is supervised online in existing small portable water quality In measurement equipment, by taking Water quality ammonia nitrogen as an example.Existing electrochemical ion selects electrode equipment, kit class detector.But it is different Degree weakness.Wherein electrochemical apparatus anti-interference ability and parallel stability are poor, and data confidence is not high.Kit class testing Means precision is insufficient, and very big to visually observe colour developing generation error, with greater need for manual operation, can not carry out nobody and supervise online It surveys.So needs are more accurate, stablize, the water quality on-line monitoring instrument device of miniaturization.

Microfluidic chip technology is to pass through certain manufacturing process on a microchip with micro-electromechanical technology, and realization includes Sampling, dilution, reagent adding react, separation, the functions such as detection.With wide applicability and application prospect.Microfluidic analysis system System has high efficiency, and chip can be automatically performed measurement within the several seconds to tens of seconds time, separates or other are more complicated Operation.Analysis and separating rate are often higher than one or two order of magnitude of macroscopic analysis method.By taking ammonia nitrogen is tested as an example, conventional online prison The survey ammonia nitrogen instrument test time usually requires 20min, and detection can be completed in In Microfluidic Analytical Systems within 2 minutes. And the consumption of microfluidic analysis sample and reagent is minimum.It is usually 1-2mL each that conventional instrument, which consumes reagent, and microflow control technique Each sample introduction is no more than 100 μ L.Due to chip sample introduction, structure can be contracted to can convenient carrying level.Existing on-line monitoring skill Art is usually wriggling pump power-multi-pass valve injection-technology of the quartz detection cell detection technique means as full-automatic on-line checking Core.The technology maturation is stablized, and is widely used.But it is excessive to still remain volume, and reagent consumption is high, and waste liquid amount is big, test The defects of time is long.

Summary of the invention

To solve the above-mentioned problems, the purpose of this utility model is to provide a kind of micro-fluidic NH 3 flow path systems: Using microfluidic chip technology as core, constructs a set of micro-full analytical system and Water quality ammonia nitrogen is automatically monitored on-line.With Reach miniaturization, is miniaturized, facilitation, micro-sampling, the purpose quickly detected.

In order to achieve the above purpose, the utility model uses technical solution below:

A kind of micro-fluidic NH 3 flow path system, including transfusion system, micro-fluidic chip and NH 3 device；Miniflow Control chip be arranged between transfusion system and NH 3 device, which is characterized in that the transfusion system include clear water tube side, First water sample tube side, the second water sample tube side, reagent tube side, direct peristaltic pump and secondary peristaltic pump；Direct peristaltic pump respectively with the first water sample Tube side is connected with reagent tube side, and the liquid feeding end of secondary peristaltic pump is connected with clear water tube side and the second water sample tube side respectively by triple valve It connects, the outlet end of secondary peristaltic pump is connect with the first water sample tube side in direct peristaltic pump outlet end；The micro-fluidic chip includes Glass-chip ontology, glass-chip are set inside the body chip runner, chip runner respectively with the first water sample tube side and reagent Tube side connection, chip runner include along the sequentially connected liquid input section in fluid conveying direction, mixing section and liquid section out；The mixing Curve tube side is equipped in section, the liquid section that goes out is connected with NH 3 device.Using microfluidic chip technology as core, building A set of micro-full analytical system automatically monitors Water quality ammonia nitrogen on-line.It to reach miniaturization, is miniaturized, facilitation is micro- Measure sample introduction, the purpose quickly detected.

Preferably, the reagent tube side includes the first reagent tube side and the second reagent tube side；First reagent tube side with Direct peristaltic pump connection, the second reagent tube side are connect with direct peristaltic pump.

Preferably, the tube side of the first reagent tube side and the second reagent tube side and the liquid input section of chip runner crosses In same point；The first water sample tube side is connected with the middle front part of the mixing section tube side of chip runner.First reagent and Two reagents are mixed with water sample again after mixing in advance, since long range isolation will not contamination first in the independent replacement process of water sample The pipeline of reagent and the second reagent increases flow path system stability.

Preferably, the transfusion system further includes clear water source, aqueous humor source, the first reagent solution source and the second reagent solution Source；The clear water source is connected with clear water tube side；Described aqueous humor source one end is connected with the first water sample tube side, aqueous humor The source other end is connected with the second water sample tube side；The first reagent solution source is connected with the first reagent tube side；Described Two reagent solution sources are connected with the second reagent tube side.

Preferably, the aperture of the chip runner is 0.5 ~ 1mm.For preferably connecting conveying.

Preferably, the NH 3 device includes pedestal, and flow cell, the water inlet pipe of setting on the base Road, outlet pipeline, LED lamp source and photoelectric detection component；The flow cell includes being made of the opaque organic glass of black Main body, body interior are equipped with runner, and runner includes input section, detection section and deferent segment；Input section, detect section and deferent segment two End is provided in main body wall, the starting ends of the terminal part of the input section and deferent segment both ends phase with detection section respectively Connection, and the main body wall for being connected to position is closed by transparent glass sheet；The linear setting of detection section, input section, The angle that deferent segment and detection section are constituted is acute angle；The beginning of inlet pipeline is connected on the output end of micro-fluidic chip, end End is connected in the input section top portion of flow cell, and outlet pipeline is connected to the terminal part of deferent segment；The LED lamp source and light Electro-detection component corresponds respectively to the both ends of detection section, and the projecting direction of LED lamp source is directed toward Photoelectric Detection along detection section Component.It can guarantee that reagent quick replacement, quick detection can obtain institute's measured data in flowing.

Preferably, the main body of the flow cell is cuboid, input section, detection section and the deferent segment of runner are in same In one plane；The both ends of detection section are provided with respectively at two lateral walls center, the top portion of input section and the end of deferent segment End is provided at the center of other two opposite side walls.Using Z-type circulation sample introduction design, effectively bubble can be avoided to generate And the phenomenon that liquid holdup.

Preferably, being additionally provided with two pipe fitting fixing seats on the pedestal of the flow cell surrounding and two optical fiber are fixed Seat, water inlet pipe and water outlet pipe are fixed by pipe fitting fixing seat, and LED lamp source and photoelectric detection component pass through fiber fixed seat It is fixed.Be conducive to fixed optical fiber and waterway connector, prevent liquid leakage.

Preferably, the NH 3 device of stating further includes upper cover, upper cover is covered on flow cell, pipe fitting fixing seat With fiber fixed seat top.Preferably play fixed function.

Compared with prior art, the beneficial effects of the utility model are:

(1) detection speed is fast, and existing product needs 20min, and this product only needs 4min；

(2) reagent consumption is small, and about 100 microlitres of amount of reagent, conventional instrument consumption is 1mL.About on 1/10th left sides It is right.Reagent consumption is small, and cost reduces, and pollution reduces；

(3) it compact structure and portable can carry.Since volume and the whole of weight reduce.Portable carrying may be implemented.And And it is applicable to the bad working environments such as ocean, lake buoy；

(4) double peristaltic pumps realize the test of ammonia nitrogen index in water sample in the case where guaranteeing that overall structure is as small as possible, The real-time replacement of water sample, the blank detection of water sample data.Deduct influence of the water sample color cloud degree to test data.Improve test essence Degree, stability, repeatability and, reduce the memory effect in test process；

(5) using multi-joint peristaltic pump as the flow path system of core, make that the requirement of multiple-way valve is greatly reduced, micro-fluidic chip Using being greatly decreased to the quantitative demand of the multiple-way valves such as triple valve.So that whole flow path is greatly succinct, cost is not only reduced, and And simplify flow path and can reduce structure, it is convenient for ocean, the bad working environments such as lake use.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model.

Fig. 2 is the structural schematic diagram of micro-fluidic chip.

Fig. 3 is the structural schematic diagram of NH 3 device (no upper cover).

Fig. 4 is the structural schematic diagram of NH 3 device (having upper cover).

Fig. 5 is the structural schematic diagram of flow cell.

Specific embodiment

To be clearer and more comprehensible the utility model, cooperation attached drawing is described in detail below.

As shown in Figure 1, a kind of micro-fluidic NH 3 flow path system, including transfusion system 1, micro-fluidic chip 2 and ammonia nitrogen Monitoring device 3, micro-fluidic chip 2 are arranged between transfusion system 1 and NH 3 device 3.Transfusion system 1 includes clear water tube side 11, the first water sample tube side 12, the second water sample tube side 121, reagent tube side 13, direct peristaltic pump 14 and secondary peristaltic pump 15, reagent tube side 13 include the first reagent tube side 131 and the second reagent tube side 132.Direct peristaltic pump 14 is three peristaltic pumps, is greatly decreased to threeway The quantitative demands of multiple-way valves such as valve 151 not only reduce cost so that whole flow path is greatly succinct, but also simplifying flow path can be with Reduce structure.Direct peristaltic pump 14 is separately connected with the first water sample tube side 12, the first reagent tube side 131, the second reagent tube side 132, The liquid feeding end of secondary peristaltic pump 15 is connect with clear water tube side 11 and the second water sample tube side 121 respectively by triple valve 151, secondary peristaltic pump 15 outlet end is connect with the first water sample tube side 12 in 14 outlet end of direct peristaltic pump.Transfusion system 1 further include clear water source 111, Aqueous humor source 120, the first reagent solution source 133 and the second reagent solution source 134；Clear water source 111 is connected with clear water tube side 11；Water sample 120 one end of liquid source is connected with the first water sample tube side 12, and 120 other end of aqueous humor source is connected with the second water sample tube side 121；The One reagent solution source 133 is connected with the first reagent tube side 131；Second reagent solution source 134 is connected with the second reagent tube side 132.

As shown in Fig. 2, micro-fluidic chip 2 includes glass-chip ontology 21, the inside of glass-chip ontology 21 is equipped with chip Runner 22, the aperture of chip runner 22 are 0.5 ~ 1mm.Chip runner 22 includes along the sequentially connected liquid input section in fluid conveying direction 23, mixing section 24 and out liquid section 25, feed zone 23 be connected respectively with the first reagent tube side 131 and the second reagent tube side 132 and It is intersected in same point.Curve tube side, the middle front end phase of the first water sample reagent tube side 12 and curve tube side are equipped in mixing section 24 Connection.First reagent and the second reagent are mixed with water sample again after mixing in advance, in the independent replacement process of water sample due to long range every Will not contamination the first reagent and the second reagent pipeline, increase flow path system stability.Mixing section 24 is for shaped form The first reagent, the second reagent and water sample can be allowed to be sufficiently mixed.Liquid section 25 is connected with NH 3 device 3 out.

As shown in Fig. 3, Fig. 4 and Fig. 5, NH 3 device 3 includes pedestal 31, and the circulation being arranged on pedestal 31 Pond 32, inlet pipeline 33, outlet pipeline 34, LED lamp source 35 and photoelectric detection component 36.Flow cell 32 includes opaque by black The main body 321 that organic glass is constituted.Runner is equipped with inside main body 321, runner includes input section 322, detection section 323 and deferent segment 324.The both ends of input section 322, detection section 323 and deferent segment 324 are provided on 321 side wall of main body, the end of input section 322 The top portion of end and deferent segment 324 is connected with the both ends of detection section 323 respectively, and is connected to 321 side wall of main body at position It is closed by transparent glass sheet 325.Detect the linear setting of section 323, input section 322, deferent segment 324 and detection 323 institute of section The angle of composition is acute angle；In a kind of wherein specific embodiment, the main body 321 of flow cell 32 is 10mm*10mm*20mm's Cuboid, the input section 322 of runner, detection section 323 and deferent segment 324 are in the same plane.Detect the both ends part of section 323 It is not provided at two lateral walls center, the top portion of input section 322 and the terminal part of deferent segment 324 are provided with other two relatively At the center of side wall；The length for detecting section 323 is 10 mm, the runner including input section 322, detection section 323 and deferent segment 324 Internal diameter is 0.5mm.Flow cell 32 in above scheme includes the main body 321 being made of the opaque organic glass of black, black Organic glass PMMA good shading effect.Runner is equipped with inside main body 321, the light that optical fiber issues when detection can only pass through runner section Light transmission determines rate according to lambert Bill, and the length of light path can meet high-precision ammonia nitrogen concentration detection demand.Runner includes input section 322, section 323 and deferent segment 324 are detected, and detects the linear setting of section 323, input section 322, deferent segment 324 and detection section 323 angles constituted are acute angle.Using the circulation sample introduction design of unique Z-type, compared to conventional orthogonal runner, can effectively prevent Only detection cell primary path end positions are detained bubble, influence to test signal, and strengthen the cleaning effect of flow cell 32, reduce The memory effect of test.And the transparent glass sheet 325 on 321 side wall of main body can guarantee light transmission rate and high stability.Quartz Stable material quality, indeformable discoloration, ensure that flow cell 32 can with stable operation for a long time there is a situation where leakage or failure.

It is additionally provided with two pipe fitting fixing seats 37 and two fiber fixed seats 38 on the pedestal 31 of 32 surrounding of flow cell, intakes Pipeline 33 and outlet pipeline 34 are fixed by pipe fitting fixing seat 37, and LED lamp source 35 and photoelectric detection component 36 are solid by optical fiber Reservation 38 is fixed.NH 3 device 3 further includes upper cover 39, and upper cover 39 is covered on flow cell 32, pipe fitting fixing seat 37 and light Fine 38 top of fixing seat.Wherein, the beginning of inlet pipeline 33 is connected on the output end of micro-fluidic chip 2, and end is connected to stream In 322 top portion of input section in logical pond 32, outlet pipeline 34 is connected to the terminal part of deferent segment 324.LED lamp source 35 and photoelectricity inspection The both ends that component 36 corresponds respectively to detection section 323 are surveyed, and the projecting direction of LED lamp source 35 is directed toward light along detection section 323 Electro-detection component 36.It is related to a kind of NH 3 device 3 in the technical solution, the inlet pipeline 33 in the NH 3 device 3 Detection liquid is introduced, cocurrent enters in the runner of flow cell 32, and outlet pipeline 34 is for drawing waste liquid.What LED lamp source 35 issued Light can by the detection section 323 of runner, and via photoelectric detection component 36 receive after absorbance be calculated, must be discharged in ammonia nitrogen Concentration.

The program is using two groups of peristaltic pumps as power source.Direct peristaltic pump 14 is by the first reagent, the second reagent and water sample guidance value It is mixed in micro-fluidic chip, then is passed through in flow cell 32 and is detected, export waste liquid eventually by sewer pipe.Direct peristaltic pump 14 respectively with the first reagent tube side 131, and the second reagent tube side 132, the first water sample tube side 12 is managed with the PFA of 0.8mm internal diameter to be connected. When the closure of triple valve 151 and secondary peristaltic pump 15 stall, direct peristaltic pump 14 is rotated forward.First reagent, the second reagent and water sample are logical 14 wriggling sample introduction of direct peristaltic pump is crossed, point three roads enter in micro-fluidic chip 2 simultaneously, are detected, are passed through by flow cell 32 afterwards Water sample test is realized in sewer pipe discharge.The outlet end of secondary peristaltic pump 15 is connected with the first water sample tube side 12, secondary peristaltic pump 15 and master The water source of peristaltic pump 14 is consistent, is connected to by two three connection waterway connectors, and when triple valve 151 is closed, direct peristaltic pump 14 is stalled. Under secondary 15 rotation situation of peristaltic pump, water sample can enter in micro-fluidic chip 2 separately through secondary peristaltic pump 15, after flow cell 32 It is discharged by sewer pipe, realizes water sample replacement.After water sample sample introduction, by switching three-way valve 151, time peristaltic pump 15 is opened, into Chip cleaning may be implemented in the replacement of row ejected wash water.

The workflow of NH 3:

The replacement of 1 water sample

Time peristaltic pump 15 is opened, direct peristaltic pump 14 and triple valve 151 remain off.Water sample pass through time peristaltic pump 15 into Enter 2 flow path system of micro-fluidic chip.1min rinse chip flow path, flow control is in 300 μ L/min.

The detection of 2 blank

Stop time peristaltic pump 15.Entire flow path remains static, and LED is detected in the flow cell 32 under remaining static Water sample absorbance obtains blank absorbency after stablizing 30s.Blank absorbency, which can be realized, deducts water sample color cloud degree to conceptual data shadow Loud function.

The test of 3 sample introductions

Direct peristaltic pump 14 is opened, secondary peristaltic pump 15 is remained off with triple valve 151.Water sample, the first reagent, the second examination Agent enters 2 flow path system of micro-fluidic chip by direct peristaltic pump 14.Mixing in real time, control are completed under the effect of micro-fluidic chip 2 Flow velocity is every 50 μ L/min of single channel.Sample introduction 1min.Sample introduction stable system, three group reagents realize real-time show after can stablizing mixing Color.

4 color developing detections

Stop direct peristaltic pump 14, entire flow path remains static, and LED is detected in the flow cell 32 under remaining static Water sample absorbance obtains colour developing absorbance after stablizing 30s.

5 cleanings

Triple valve 15 is opened, time peristaltic pump 15 is opened, direct peristaltic pump 14 remains turned-off.Flow control, will in 300 μ L/min Ejected wash water is introduced in micro-fluidic chip 2, keeps 1min.Clean the water sample circuit portion of chip.

Colour developing in above-mentioned steps (3) is tested using conventional salicylic acid method, and agent prescription is prepared with 1L amount mark as follows It is quasi-:

First reagent: according to 130g/L, weight readings are accurate to ± 2g and weigh sodium salicylate and trisodium citrate respectively, Enter in the beaker of 1L, the water of beaker ull-scale value about 80% is added, is then stirred with glass bar, until being completely dissolved.Again The sodium nitroprussiate weight that 1.0g/L is added is accurate to ± 0.02g, since sodium nitroprussiate is hard solid, when weighing, should control fragment Size；It when dissolution, is stirred on one side using glass bar in beaker center, sodium nitroprussiate solid is slightly smashed to pieces on one side, until bottom of the beaker Portion can't see the tiny particles content that can be glistened and then distilled water be added to ull-scale value, finally stir three points with glass bar again Zhong Hou is stood, for use.

Second reagent: weighing 32g/L, and weight degree is accurate to the sodium hydroxide of ± 0.2g, is poured slowly into the beaker of 1L, It is slowly added to the distilled water of beaker ull-scale value 50%, is constantly stirred with glass bar, until sodium hydroxide is completely dissolved sodium hydroxide It if any caking phenomenon, can slightly be smashed to pieces with glass bar, accelerate dissolution.After dissolution, solution is waited to be cooled to room temperature, then again The distilled water of about 30% beaker ull-scale value is added, 2.0g/L sodium dichloro cyanurate weight readings essence is added while stirring Really to ± 0.1g.Until completely dissolved, then plus distilled water to beaker ull-scale value at.Stirring three minutes is stood, for use.

In conclusion program detection speed is fast, existing product needs 20min, and this product only needs 4min.Reagent consumption Small, about 100 microlitres of amount of reagent, conventional instrument consumption is 1mL.About 1/10th or so.Reagent consumption is small, cost drop Low, pollution reduces.It compact structure and portable can carry.Since volume and the whole of weight reduce.Portable carrying may be implemented.Button Influence except water sample color cloud degree to test data.Improve measuring accuracy, stability, repeatability and, reduce in test process Memory effect.It is greatly decreased to quantitative demands of multiple-way valves such as triple valves 151.So that whole flow path is greatly succinct, not only Cost is reduced, and simplifies flow path and can reduce structure, is convenient for ocean, the bad working environments such as lake use.

Claims (9)

1. a kind of micro-fluidic NH 3 flow path system, including transfusion system (1), micro-fluidic chip (2) and NH 3 device (3)；Micro-fluidic chip (2) is arranged between transfusion system (1) and NH 3 device (3), which is characterized in that the infusion System (1) include clear water tube side (11), the first water sample tube side (12), the second water sample tube side (121), reagent tube side (13), master it is compacted Dynamic pump (14) and time peristaltic pump (15)；Direct peristaltic pump (14) is connect with the first water sample tube side (12) and reagent tube side (13) respectively, The liquid feeding end of secondary peristaltic pump (15) is connect with clear water tube side (11) and the second water sample tube side (121) respectively by triple valve (151), The outlet end of secondary peristaltic pump (15) is connect with the first water sample tube side (12) in direct peristaltic pump (14) outlet end；Described is micro-fluidic Chip (2) includes glass-chip ontology (21), and the inside of glass-chip ontology (21) is equipped with chip runner (22), chip runner (22) connect respectively with the first water sample tube side (12) and reagent tube side (13), chip runner (22) include along fluid conveying direction according to The liquid input section (23) of secondary connection, mixing section (24) and liquid section (25) out；Curve tube side is equipped in the mixing section (24), it is described Go out liquid section (25) be connected with NH 3 device (3).

2. a kind of micro-fluidic NH 3 flow path system according to claim 1, which is characterized in that the reagent tube side It (13) include the first reagent tube side (131) and the second reagent tube side (132)；First reagent tube side (131) and direct peristaltic pump (14) Connection, the second reagent tube side (132) are connect with direct peristaltic pump (14).

3. a kind of micro-fluidic NH 3 flow path system according to claim 2, which is characterized in that first reagent The tube side of tube side (131) and the second reagent tube side (132) and the liquid input section (23) of chip runner (22) is intersected in same point；It is described The first water sample tube side (12) be connected with the middle front part of mixing section (24) tube side of chip runner (22).

4. a kind of micro-fluidic NH 3 flow path system according to claim 2 or 3, which is characterized in that the infusion System (1) further includes clear water source (111), aqueous humor source (120), the first reagent solution source (133) and the second reagent solution source (134)； The clear water source (111) is connected with clear water tube side (11)；Described aqueous humor source (120) one end and the first water sample tube side (12) it is connected, aqueous humor source (120) other end is connected with the second water sample tube side (121)；The first reagent solution source (133) it is connected with the first reagent tube side (131)；The second reagent solution source (134) is connected with the second reagent tube side (132) It connects.

5. a kind of micro-fluidic NH 3 flow path system according to claim 1, which is characterized in that the chip runner (22) aperture is 0.5 ~ 1mm.

6. a kind of micro-fluidic NH 3 flow path system according to claim 1, which is characterized in that the NH 3 Device includes pedestal (31), and be arranged flow cell (32) on pedestal (31), inlet pipeline (33), outlet pipeline (34), LED lamp source (35) and photoelectric detection component (36)；The flow cell (32) includes being made of the opaque organic glass of black Main body (321), main body (321) is internal to be equipped with runner, and runner includes input section (322), detection section (323) and deferent segment (324)； The both ends of input section (322), detection section (323) and deferent segment (324) are provided on main body (321) side wall, input section (322) starting ends of terminal part and deferent segment (324) are connected with the both ends of detection section (323) respectively, and interconnecting part Main body (321) side wall of position is closed by transparent glass sheet (325)；Described detection section (323) the linear setting, input section (322), the angle that deferent segment (324) and detection section (323) are constituted is acute angle；The beginning of inlet pipeline (33) is connected to miniflow On the output end for controlling chip (2), end is connected in input section (322) top portion of flow cell (32), and outlet pipeline (34) is even Connect the terminal part in deferent segment (324)；The LED lamp source (35) and photoelectric detection component (36) corresponds respectively to detection section (323) both ends, and the projecting direction of LED lamp source (35) is directed toward photoelectric detection component (36) along detection section (323).

7. a kind of micro-fluidic NH 3 flow path system according to claim 6, which is characterized in that the flow cell (32) main body (321) is cuboid, and input section (322), detection section (323) and the deferent segment (324) of runner are in same flat On face；The both ends of detection section (323) are provided with respectively at two lateral walls center, the top portion and output of input section (322) The terminal part of section (324) is provided at the center of other two opposite side walls.

8. a kind of micro-fluidic NH 3 flow path system according to claim 6, which is characterized in that the flow cell (32) two pipe fitting fixing seats (37) and two fiber fixed seats (38), inlet pipeline are additionally provided on the pedestal (31) of surrounding (33) and outlet pipeline (34) is fixed by pipe fitting fixing seat (37), and LED lamp source (35) and photoelectric detection component (36) pass through Fiber fixed seat (38) is fixed.

9. a kind of micro-fluidic NH 3 flow path system according to claim 8, which is characterized in that the NH 3 Device (3) further includes upper cover (39), and upper cover (39) is covered on flow cell (32), pipe fitting fixing seat (37) and fiber fixed seat (38) top.