CN209014498U - A kind of continuous on-line monitoring system of helium - Google Patents

Abstract

The utility model relates to a kind of continuous on-line monitoring systems of helium, including the first air inlet, the second air inlet, first row port, second exhaust port, gas pre-processing assembly, gas splitter, thermal conductivity sensor, surge tank, quantity tube, the first solenoid valve, second solenoid valve, third solenoid valve, the 4th solenoid valve, first flowmeter, second flowmeter, measurement air pump, sampling air pump and governor circuit, cleaning gas circuit, sampling gas circuit and measurement gas circuit are constituted.Governor circuit controls the operation of first to fourth solenoid valve leading to and measuring air pump and sample air pump respectively, realizes cleaning gas circuit, sampling gas circuit and the automatic switchover for measuring gas circuit, first cleans gas circuit work, and the work of re-sampling gas circuit finally measures gas circuit work.The utility model responds fast, high sensitivity using the response signal of fully differential method of comparative analysis acquisition thermal conductivity sensor by the concentration of helium in Comparative and Quantitative Analysis detection gas, does not influence vulnerable to changes in environmental conditions, is applicable in field inspection environment.

Description

A kind of continuous on-line monitoring system of helium

Technical field

The utility model relates to traces helium analysis technical field in the earth's crust more particularly to a kind of helium are continuously online Monitoring system and its monitoring method are mainly used in the detection and analysis of earth's crust helium gas inside, can be short for helium gas reservoir exploration and earthquake Face prediction and foundation is provided, can also be applied to industrial automation leak detection analysis.

Background technique

Tellurian helium is the product of weight radioactive element alpha-decay, is mainly isotope by the helium that radioactive decay generates⁴He is mainly stored in rock, and is gradually dissolved into underground water.Helium has great permeability and diffusivity, in the earth's crust In motion process, helium can flow out earth's surface with underground water by the crack diffusion of crustal rock to water-bearing layer, or It is penetrated into tomography by crustal rock crack, directly diffuses to earth's surface.Therefore, concentrations of helium in the water or tomography of surface layer Distribution implies the amount of containing of underground deep layer helium, and the variation and earthquake and faulting of concentrations of helium are in close relations.Detection ground Concentrations of helium in lower fluid can not only explore natural Helium natural gas as natural gas and indicate source, before can also being applied to earthquake Million predictions.

Currently, widely applied survey helium method is gas chromatography and mass spectroscopic assays both at home and abroad, but both instrument Device is complicated for operation, difficult in maintenance, costly, and volume is big, and the environmental stability that when detection requires is higher, therefore is not suitable for field On-site test, the strong influence reliability of field work, and since helium has permeability, before laboratory testing Sample acquisition closing it is more demanding, be easy to cause biggish measurement error.Further, since the quality of helium and hydrogen is close, Cause the separating effect of helium and micro light-component gas such as hydrogen and neon poor.The survey that other domestic also with good grounds principles are developed Helium instrument such as surveys helium instrument to the continuous monitoring that the high osmosis of helium and the working principle of ion titanium pump are designed using quartz, but It is that this reaction speed for surveying helium instrument is very slow, needs the operating voltage variation of the slow infiltration measurement ionic pump by helium, and Since the saturation absorption of titanium film causes device longevity shorter, range is smaller, and timeliness and application range are smaller in continuous monitoring, The application of instrument is caused to be obstructed.

Summary of the invention

In order to solve the above-mentioned technical problem the utility model, provides a kind of continuous on-line monitoring system of helium, sensor Fast response time, high sensitivity, gas component resolving power is strong, and the concentration variation of energy on-line continuous observation helium, stability is good, no Influence vulnerable to changes in environmental conditions, it can be achieved that field in situ detection, accuracy is high, be suitable for the evolution of continuous on-line monitoring underground or Industry evolution helium.

Above technical problems of the utility model are mainly solved by the following technical scheme: the utility model The continuous on-line monitoring system of helium, including the first air inlet, the second air inlet, first row port, second exhaust port, gas are located in advance Manage component, gas splitter, thermal conductivity sensor, surge tank, quantity tube, the first solenoid valve, second solenoid valve, third solenoid valve, 4th solenoid valve, first flowmeter, second flowmeter, measurement air pump, sampling air pump and governor circuit, the first air inlet and gas Pre-processing assembly is connected, and the second air inlet is connected with third solenoid valve, and gas pre-processing assembly passes through tee tube and the first electromagnetism Valve, third solenoid valve are connected, and third solenoid valve is connected through quantity tube and the 4th solenoid valve, the 4th solenoid valve through second flowmeter and It samples air pump to be connected, sampling air pump is connected with second exhaust port, and gas splitter passes through tee tube and the first solenoid valve, the 4th electricity Magnet valve be connected, gas splitter is connected through second solenoid valve with the air inlet of thermal conductivity sensor, the gas outlet of thermal conductivity sensor with Surge tank is connected, and surge tank is connected through first flowmeter with measurement air pump, and measurement air pump is connected with first row port, thermal conductivity sensing Device, the first solenoid valve, second solenoid valve, third solenoid valve, the 4th solenoid valve, first flowmeter, second flowmeter, measurement air pump And sampling air pump is connected with governor circuit respectively.First air inlet, gas pretreated group, the first solenoid valve, gas splitter, Two solenoid valves, thermal conductivity sensor, surge tank, first flowmeter, measurement air pump and first row port constitute cleaning gas circuit；First into Port, gas pretreated group, third solenoid valve, quantity tube, the 4th solenoid valve, second flowmeter, sampling air pump and second exhaust Mouth constitutes sampling gas circuit；Second air inlet, third solenoid valve, quantity tube, the 4th solenoid valve, gas splitter, second solenoid valve, Thermal conductivity sensor, surge tank, first flowmeter, measurement air pump and first row port constitute measurement gas circuit.Governor circuit is controlled respectively Make the fortune of the first solenoid valve, second solenoid valve, third solenoid valve and the 4th solenoid valve leading to and measuring air pump and sample air pump Row realizes cleaning gas circuit, sampling gas circuit and the automatic switchover for measuring gas circuit.First cleaning gas circuit work, obtains reference signal；Then Gas circuit work is sampled, quantitative sample gas is obtained；Finally measurement gas circuit work, obtains measuring signal.Governor circuit to reference signal and Measuring signal compares and analyzes, and obtains the concentration of helium in sample gas, carries out display and subsequent statistical analysis.The technical program In, sensor fast response time, high sensitivity, gas component resolving power is strong, the concentration variation of energy on-line continuous observation helium, surely It is qualitative good, it is not influenced vulnerable to changes in environmental conditions, it can be achieved that field in situ detection, accuracy is high, suitable for continuous on-line monitoring Underground evolution or industry evolution helium.

Preferably, the gas pre-processing assembly includes molecular sieve capillary and multilayer seperation film, molecular sieve capillary Carrier containing alkali is filled in pipe, the import of molecular sieve capillary is connected with first air inlet, and multilayer seperation film is covered on In the outlet of molecular sieve capillary, the seperation film is polyester cellulose fiber semi-permeable membrane.That fills in molecular sieve capillary contains alkali Carrier is used to filter the harmful interference gas in gas.Multilayer seperation film is filtered small in gas using polyester cellulose fiber semi-permeable membrane Partial size gas.

Preferably, the thermal conductivity sensor is the internal block for being equipped with reference cell and measuring cell, reference cell and a survey Measuring pond is cylindrical pond body, and two pond bodies are separately arranged in parallel, and the import of two pond bodies is set to the left side of block, as The air inlet of thermal conductivity sensor, the second solenoid valve are one-in-and-two-out solenoid valve, and the import of two pond bodies is electric with second respectively Two outlets of magnet valve are connected, and the thermal conductivity after the pipeline connection that the outlet of two pond bodies passes through bulk inner and on the right side of block passes The gas outlet of sensor is connected, and the center of two pond bodies suspends the temperature-sensitive element for having one along the distribution of pond body length direction, temperature-sensitive Element is connected with the governor circuit.When cleaning gas circuit work, air is flowed into from the first air inlet, and cleaned gas circuit flows into heat The reference cell of derivative sensor, reference cell temperature-sensitive element are contacted with air, and resistance changes, the resistance of reference cell temperature-sensitive element Signal is transferred to governor circuit as reference signal.When measuring gas circuit work, air is flowed into from the second air inlet, pushes quantity tube In sample gas inflow gas splitter separated, make helium in sample gas and other gases in a time-sequential manner successively by second Solenoid valve flows into the measuring cell of thermal conductivity sensor, and helium contact measurement pond temperature-sensitive element at first makes the electricity of measuring cell temperature-sensitive element Resistance changes, and the resistance signal of measuring cell temperature-sensitive element is transferred to governor circuit as measuring signal.Governor circuit acquisition ginseng Than signal and measuring signal, the thermal conductivity coefficient variation after temperature-sensitive element contacts gas is calculated by resistance variations, finally obtains sample The concentration of helium in gas.Sensor fast response time, transducing signal response is strong, the range of linearity is wide, not vulnerable to changes in environmental conditions It influences, strong interference immunity, accuracy is high.

Preferably, the pond body inner wall is equipped with two rows of support columns being spaced apart along pond body length direction, Liang Paizhi Dagger is located at the relative position of pond body inner wall, and support column is connected with the temperature-sensitive element, and support column hangs temperature-sensitive element It sets in pond body, two rows of support columns are staggered.The setting of support column reduces temperature-sensitive element when air-flow flows through and generates vibration.Heat The suspension of quick element, it is ensured that, can sufficiently and the contact of temperature-sensitive element surface when gas flows through pond body, increase temperature-sensitive element and gas connect Contacting surface product, improves response speed, improves the accuracy and reliability of measurement.

Preferably, the temperature-sensitive element is the spiral being prepared by negative tempperature coefficient thermistor composite material Shape coil, the core of coil are platinum filaments, and there are one layer of nanometer powder film layer, nanometer powder in core outside by magnetron sputtering sputter For the Ba-Fn-Sn-O Ca-Ti ore type nanometer powder being prepared by ball milling-powder sintering.Both ensure that temperature-sensitive element compared with Have within the scope of big temperature it is linear, in turn avoid platinum filament at high temperature deterioration by oxidation and the problem of reduce service life.

Preferably, the gas splitter is a spiral element, the carbon bead that interior filling partial size is 30~40 mesh is managed. Since the migration velocity of gas is different, absorption property is different, the gas of different components is different the time required to flowing through gas splitter, Therefore the gas ingredients close with helium property can be efficiently separated by gas splitter, the technical program utilizes spiral element Increase the absorption resistance of splitter, extends the disengaging time of helium and other gases.

Preferably, the governor circuit includes central processing unit, signal processing unit, gas circuit control unit, net Network communication unit, storage unit, man-machine mutual telephone unit and the electricity of operating voltage is provided for the continuous on-line monitoring system of entire helium Source unit, signal processing unit, gas circuit control unit, network communication unit, storage unit and man-machine mutual telephone unit respectively and in Central Processing Unit is connected, and signal processing unit is connected with the transducing signal output end of the thermal conductivity sensor, and gas circuit control is single Member respectively with first solenoid valve, second solenoid valve, third solenoid valve, the 4th solenoid valve, first flowmeter, second flow Meter, measurement air pump and sampling air pump are connected.Using central processing unit as core, gas circuit control unit controls leading to for each solenoid valve And measurement air pump, the operation for sampling air pump, realize cleaning gas circuit, sampling gas circuit and the automatic switchover for measuring gas circuit, signal processing Unit acquires the transducing signal of thermal conductivity sensor, and central processing unit is sent to be analyzed and handled.Storage unit carries out dependency number According to storage.Man-machine mutual telephone unit includes display screen and key, realizes man-machine mutual words.By network communication unit, realize long-range It is monitored and controlled.

The beneficial effects of the utility model are: eliminating interference gas and the water steaming in gas by gas pre-processing assembly Gas, using separation post separation helium and other gases, by the concentration of helium in Comparative and Quantitative Analysis detection gas, using complete poor Divide the response signal of method of comparative analysis acquisition thermal conductivity sensor, sensor fast response time, transducing signal respond the strong, range of linearity Extensively, the concentration variation of energy on-line continuous measurement helium, high sensitivity, stability is good, does not influence vulnerable to changes in environmental conditions, resists and does Immunity is strong, and accuracy is high, is applicable in field inspection environment, has network transmission function, is able to achieve remote monitoring and control, meets wild The demand of outer long-term fixed point continuous observation.

Detailed description of the invention

Fig. 1 is a kind of system connection block diagram of the utility model.

Fig. 2 is a kind of structural schematic diagram of thermal conductivity sensor in the utility model.

Fig. 3 is a kind of structural schematic diagram of gas pre-processing assembly in the utility model.

Fig. 4 is a kind of circuit theory connection block diagram of governor circuit in the utility model.

1. first solenoid valve in figure, 2. second solenoid valves, 3. third solenoid valves, 4. the 4th solenoid valves, the pretreatment of 5. gases Component, 6. gas splitters, 7. thermal conductivity sensors, 8. surge tanks, 9. quantity tubes, 10. first flowmeters, 11. first air inlets, 12. the second air inlet, 13. second flowmeters, 14. measurement air pumps, 15. sampling air pumps, 16. governor circuits, 17. central processing lists Member, 18. signal processing units, 19. gas circuit control units, 20. network communication units, 21. first row ports, 22. second exhausts Mouthful, 23. storage units, 24. man-machine mutual telephone units, 25. power supply units, 51. molecular sieve capillaries, 52. multilayer seperation films, 71. Reference cell, 72. measuring cells, 73. temperature-sensitive elements, 74. support columns.

Specific embodiment

Below with reference to the embodiments and with reference to the accompanying drawing the technical solutions of the present invention will be further described.

Embodiment: a kind of continuous on-line monitoring system of helium of the present embodiment, as shown in Figure 1, include the first air inlet 11, Second air inlet 12, first row port 21, second exhaust port 22, gas pre-processing assembly 5, gas splitter 6, thermal conductivity sensor 7, surge tank 8, quantity tube 9, the first solenoid valve 1, second solenoid valve 2, third solenoid valve 3, the 4th solenoid valve 4, first flowmeter 10, second flowmeter 13, measurement air pump 14, sampling air pump 15 and governor circuit 16, the first air inlet and gas pre-processing assembly It is connected, the second air inlet is connected with third solenoid valve, and gas pre-processing assembly passes through tee tube and the first solenoid valve, third electromagnetism Valve is connected, and third solenoid valve is connected through quantity tube and the 4th solenoid valve, and the 4th solenoid valve is through second flowmeter and sampling air pump phase Even, sampling air pump is connected with second exhaust port, and gas splitter is connected by tee tube and the first solenoid valve, the 4th solenoid valve, Gas splitter is connected through second solenoid valve with the air inlet of thermal conductivity sensor, the gas outlet of thermal conductivity sensor and surge tank phase Even, surge tank through first flowmeter and measurement air pump be connected, measure air pump be connected with first row port, the first solenoid valve for one into One goes out solenoid valve, and second solenoid valve, third solenoid valve and the 4th solenoid valve are one-in-and-two-out solenoid valve, thermal conductivity sensor, the One solenoid valve, third solenoid valve, the 4th solenoid valve, first flowmeter, second flowmeter, measures air pump and adopts second solenoid valve Sample air pump is connected with governor circuit respectively.First air inlet, gas pretreated group, the first solenoid valve, gas splitter, the second electricity Magnet valve, thermal conductivity sensor, surge tank, first flowmeter, measurement air pump and first row port constitute cleaning gas circuit；Described first Air inlet, gas pretreated group, third solenoid valve, quantity tube, the 4th solenoid valve, second flowmeter, sampling air pump and second row Port constitutes sampling gas circuit；Second air inlet, third solenoid valve, quantity tube, the 4th solenoid valve, gas splitter, Two solenoid valves, thermal conductivity sensor, surge tank, first flowmeter, measurement air pump and first row port constitute measurement gas circuit.

As shown in Fig. 2, thermal conductivity sensor is the internal block for having reference cell 71 and measuring cell 72, using thermal conductivity compared with Difference, the preferable polytetrafluoroethylene material of air-tightness are made, and reference cell and measuring cell are cylindrical pond body, and two pond bodies are alternate Every being arranged in parallel, the diameter of reference cell and measuring cell is 5mm, and the import of length 10mm, two pond bodies are respectively positioned on a left side for block Side, the as air inlet of thermal conductivity sensor, the import of two pond bodies are connected with two outlets of second solenoid valve respectively, two pond bodies It is connected after the pipeline connection that outlet passes through bulk inner with the gas outlet of the thermal conductivity sensor on the right side of block, in two pond bodies Heart position suspends the temperature-sensitive element 73 for having one along the distribution of pond body length direction, and temperature-sensitive element is a by negative temperature coefficient thermistor power The spiral coil that resistance composite material is prepared, the core of coil are the platinum filaments of diameter 0.5mm, are splashed outside core by magnetic control Penetrating sputter to have a layer thickness is the nanometer powder film layer of 50~80nm, and nanometer powder is to be prepared by ball milling-powder sintering At Ba-Fn-Sn-O Ca-Ti ore type nanometer powder, when measurement, temperature-sensitive element generates heat in 3V voltage, so that component temperature control exists 150℃.Pond body inner wall has two rows of support columns 74 being spaced apart along pond body length direction, and every row has four, two rows of support columns point Not Wei Yu pond body inner wall relative position, support column is connected with temperature-sensitive element, and temperature-sensitive element is suspended in pond body by support column, two Row's support column is staggered.Support column is by with the resistance material SnO of nearly zero-temperature coefficient₂-WO₃The powder sintered system of-CdO mixed phase Standby to form, within the scope of 0~300 DEG C, temperature coefficient is close to zero.Therefore it is not affected by temperature when temperature-sensitive element heat release, It is insensitive to the detection of gas.

As shown in figure 3, gas pre-processing assembly includes molecular sieve capillary 51 and multilayer seperation film 52, molecular sieve capillary It is made of the quartz glass tube that 10 root long degree are 10cm, cross section is hexagonal, the side length of hexagon is 0.1mm, every quartz Carrier containing alkali is filled in glass tube, carrier partial size is 100 mesh, and main component is soda oxide.Molecular sieve capillary into Mouth is connected by pipeline and the first air inlet, and multilayer seperation film is covered in the outlet of molecular sieve capillary, and seperation film is polyester Cellulose fiber semi-permeable membrane, film thickness 0.5mm, 0.45 μm of the aperture of film, seperation film shares 6 layers.

Gas splitter is the spiral element that length is greater than 4 meters, and 2.5~3mm of bore manages interior filling partial size 30~40 Purpose spherical shape carbon bead.Gas passes through gas splitter, increases the absorption resistance of splitter using spiral element, due to gas Migration velocity is different, absorption property is different, so that helium can be differed at least 1 second with the timing that other gases pass through, thus by helium Gas and other gases separate.Quantity tube is the polyfluortetraethylene pipe that a volume is 1ml, the body for the sample gas to acquisition Product is quantified, and quantitative analysis is convenient for.First flowmeter and measurement air pump are used to control the gas flow for flowing into thermal conductivity sensor, In order to guarantee that gas and temperature-sensitive element had not only come into full contact with but also do not caused thermal vibration, gas flow is controlled in 30~50ml/min, surely Degree of determining≤1ml/min.Second flowmeter and sampling air pump are used to control the acquisition flow velocity of gas, control in 300~400ml/ min。

As shown in figure 4, governor circuit includes central processing unit 17, signal processing unit 18, gas circuit control unit 19, net Network communication unit 20, storage unit 23, man-machine mutual telephone unit 24 and for the continuous on-line monitoring system of entire helium provide work electricity The power supply unit 25 of pressure, signal processing unit, gas circuit control unit, network communication unit, storage unit and man-machine mutual telephone unit It is connected respectively with central processing unit, central processing unit uses embeded processor, and signal processing unit is passed with thermal conductivity respectively Reference cell temperature-sensitive element in sensor, measuring cell temperature-sensitive element are connected, gas circuit control unit respectively with the first solenoid valve, the second electromagnetism Valve, third solenoid valve, the 4th solenoid valve, first flowmeter, second flowmeter, measurement air pump and sampling air pump are connected.At signal Reason unit mainly passes through fully differential method and carries out detection amplification to the resistance variations of temperature-sensitive element, and follows circuit to disappear using signal Except the noise of reference temperature-sensitive element, guarantee the stability and accuracy of measurement.Power supply unit is whole system power supply, using prime The adaptive voltage-regulating technique of pre- pressure stabilizing, rear class negative-feedback forms high-precision voltage-stabilized power supply circuit, reduces the noise of entire circuit. Man-machine mutual telephone unit shows measurement result using touch screen display screen, sends continuous measurement, single measurement, number to embeded processor According to inquiry instruction.Central processing unit analyzes the transducing signal that signal processing unit is sent, by the resistance of temperature-sensitive element Variation is converted to gas concentration, and gas concentration is saved to storage unit.Network communication unit can be by wired or wireless Communication mode realizes the remote transmission of measurement data, can be transmitted to according to demand in corresponding database.

The course of work: central processing unit sends a signal to gas circuit control unit, controls respectively by gas circuit control unit The operation of one solenoid valve, second solenoid valve, third solenoid valve and the 4th solenoid valve leading to and measuring air pump and sample air pump, it is real Gas circuit, sampling gas circuit and the automatic switchover for measuring gas circuit are now cleaned, gas circuit work is first cleaned, then samples gas circuit work, finally Measure gas circuit work；

When cleaning gas circuit work, air flows into the first air inlet and filters out in gas by the processing of gas pretreated group Harmful interference gas and small particle gas and water vapour, again pass through the first solenoid valve, gas splitter and second solenoid valve, flow Enter the reference cell of thermal conductivity sensor, then through surge tank and first flowmeter, under the draft effect of measurement air pump, finally from first Exhaust outlet discharge, reference cell temperature-sensitive element are contacted with air, and resistance changes, and the resistance signal of reference cell temperature-sensitive element is made It is transferred to the signal processing unit in governor circuit for reference signal, it is defeated after signal processing circuit is handled, then by corresponding signal Give central processing unit；

When sampling gas circuit work, in the case where the load of sampling air pump is dynamic, sample gas flows into the first air inlet, by gas pretreated group Processing, filter out harmful interference gas in gas and small particle gas and water vapour, again pass through third solenoid valve flow into it is fixed Buret quantifies sample gas by quantity tube, and sample gas passes through the 4th solenoid valve and second flowmeter, in the draft of sampling air pump Under effect, finally it is discharged from second exhaust port；

When measuring gas circuit work, air flows into the second air inlet, pushes as carrier gas and passes through quantitative sample gas in quantity tube, Sample air-flow inflow gas splitter after the 4th solenoid valve is separated, and makes helium in sample gas and other gases in a time-sequential manner The measuring cell of thermal conductivity sensor is successively flowed by second solenoid valve, helium contact measurement pond temperature-sensitive element at first makes measuring cell The resistance of temperature-sensitive element changes, and the resistance signal of measuring cell temperature-sensitive element is transferred in governor circuit as measuring signal to be believed Number processing circuit, is conveyed to central processing unit, central processing unit pair after signal processing circuit is handled, then by corresponding signal Reference signal and measuring signal compare and analyze, and obtain the concentration of helium in sample gas, on the one hand display screen are sent to show, another party Face is measured in gas circuit to monitoring center convenient for making further analysis, statistics and processing by network communication unit remote transmission Remaining gas flow through surge tank and first flowmeter, measurement air pump draft effect under, finally from first row port be discharged.

The utility model automatically controls switching purgative gas using central processing unit as control core, by gas circuit control unit Road, sampling gas circuit and measurement gas circuit, easy to operate, high reliablity.Using thermal conductivity sensor, service life length relatively wide with the range of linearity, The negative tempperature coefficient thermistor composite material of good in oxidation resistance analyzes helium as temperature-sensitive element, with isolated pond body measurement of comparison Gas concentration can effectively eliminate the interference of temperature in gas, humidity, accuracy and the detection range of detection be improved, using film-molecule Sieve gas preprocessor effectively eliminates the interfering component in gas, improves the sensitivity of detection.It is integrated using embeded processor Control, intelligent, high degree of automation is, it can be achieved that the continuous on-line analysis of helium detects.It is applicable in field inspection environment, has net Network transfer function, is able to achieve remote monitoring and control, meets the needs of field pinpoints continuous observation for a long time.

Claims (6)

1. a kind of continuous on-line monitoring system of helium, it is characterised in that including the first air inlet, the second air inlet, first exhaust Mouth, second exhaust port, gas pre-processing assembly, gas splitter, thermal conductivity sensor, surge tank, quantity tube, the first solenoid valve, Second solenoid valve, third solenoid valve, the 4th solenoid valve, first flowmeter, second flowmeter, measurement air pump, sampling air pump and master Circuit is controlled, the first air inlet is connected with gas pre-processing assembly, and the second air inlet is connected with third solenoid valve, gas pretreated group Part is connected by tee tube and the first solenoid valve, third solenoid valve, and third solenoid valve is connected through quantity tube and the 4th solenoid valve, the Four solenoid valves are connected through second flowmeter with sampling air pump, and sampling air pump is connected with second exhaust port, and gas splitter passes through three Siphunculus and the first solenoid valve, the 4th solenoid valve are connected, air inlet phase of the gas splitter through second solenoid valve and thermal conductivity sensor Even, the gas outlet of thermal conductivity sensor is connected with surge tank, and surge tank is connected through first flowmeter and measurement air pump, measure air pump with First row port is connected, thermal conductivity sensor, the first solenoid valve, second solenoid valve, third solenoid valve, the 4th solenoid valve, first-class Meter, second flowmeter, measurement air pump and sampling air pump are connected with governor circuit respectively.

2. the continuous on-line monitoring system of a kind of helium according to claim 1, it is characterised in that the gas pretreatment Component includes molecular sieve capillary and multilayer seperation film, is filled with carrier containing alkali in molecular sieve capillary, molecular sieve capillary Import is connected with first air inlet, and multilayer seperation film is covered in the outlet of molecular sieve capillary, the seperation film For polyester cellulose fiber semi-permeable membrane.

3. the continuous on-line monitoring system of a kind of helium according to claim 1, it is characterised in that the thermal conductivity sensor It is the internal block for being equipped with reference cell and measuring cell, reference cell and measuring cell are cylindrical pond body, and two pond bodies are alternate Every being arranged in parallel, the import of two pond bodies is set to the left side of block, the as air inlet of thermal conductivity sensor, second electromagnetism Valve is one-in-and-two-out solenoid valve, and the import of two pond bodies is connected with two outlets of second solenoid valve respectively, and the outlet of two pond bodies is logical It is connected after crossing the pipeline connection of bulk inner with the gas outlet of the thermal conductivity sensor on the right side of block, the center of two pond bodies Suspension has a temperature-sensitive element along the distribution of pond body length direction, and temperature-sensitive element is connected with the governor circuit.

4. the continuous on-line monitoring system of a kind of helium according to claim 3, it is characterised in that the pond body inner wall is set There are two rows of support columns being spaced apart along pond body length direction, two rows of support columns are located at the relative position of pond body inner wall, prop up Dagger is connected with the temperature-sensitive element, and temperature-sensitive element is suspended in pond body by support column, and two rows of support columns are staggered.

5. the continuous on-line monitoring system of a kind of helium according to claim 3, it is characterised in that the temperature-sensitive element is A spiral coil being prepared by negative tempperature coefficient thermistor composite material, the core of coil are platinum filament, core outside There is one layer of nanometer powder film layer by magnetron sputtering sputter, nanometer powder is the Ba- being prepared by ball milling-powder sintering Fn-Sn-O Ca-Ti ore type nanometer powder.

6. the continuous on-line monitoring system of a kind of helium according to claim 1, it is characterised in that the governor circuit packet Include central processing unit, signal processing unit, gas circuit control unit, network communication unit, storage unit, man-machine mutual telephone unit and The power supply unit of operating voltage, signal processing unit, gas circuit control unit, net are provided for the continuous on-line monitoring system of entire helium Network communication unit, storage unit and man-machine mutual telephone unit are connected with central processing unit respectively, signal processing unit and described The transducing signal output end of thermal conductivity sensor is connected, gas circuit control unit respectively with first solenoid valve, second solenoid valve, Third solenoid valve, the 4th solenoid valve, first flowmeter, second flowmeter, measurement air pump and sampling air pump are connected.