CN209342321U - A kind of detector for tightness - Google Patents

Abstract

The utility model provides a kind of detector for tightness of gas permeability detection product, and detector for tightness includes detection pipeline and the first gas ducting；The first end for detecting pipeline is equipped with air inlet, and the second end bifurcated for detecting pipeline is equipped with detection mouth and exhaust outlet, and detection mouth is equipped with the first control valve, and exhaust outlet is equipped with the second control valve；Along the direction that the second end of first end towards the detection pipeline of detection pipeline extends, detects and be successively arranged third control valve, pressure reducing valve, regulating valve, first pressure sensor and the 4th control valve on pipeline；The first end of first gas ducting is set on the detection pipeline between the first end and third control valve of detection pipeline, and the second end of the first gas ducting is set on the detection pipeline between the 4th control valve and the second end for detecting pipeline；Along the direction that the second end of first end towards the first gas ducting of the first gas ducting extends, the 5th control valve, second pressure sensor and the 6th control valve are successively arranged on the first gas ducting.

Description

A kind of detector for tightness

Technical field

The utility model relates to detection device technical field, in particular to a kind of detector for tightness.

Background technique

The disposable sack of a large amount of pharmacy can be used in the research and development and production process of pharmacy, in bio-pharmaceuticals The preparation of antibody, vaccine, the incubation of recombinant protein, chemotherapeutic, hormone drug, active drug in such as traditional chemical pharmacy Journey.Even in the CAR-T target therapy field of accurate medical treatment, the therapy field etc. of beauty stem cell will also use and arrive pharmacy one Secondary property uses sack.Due to sterile requirement and it is related to producing the expensive problem of kind, it is desirable that the disposable sack of pharmacy With good sealing performance, and it is unable to leakage gas leakage.

However, during batch production pharmacy disposable sack, it is difficult to ensure that all pharmacy are disposable The sealing performance of sack is all qualified, so sealing performance detection process can generally be arranged.But it does not apply currently on the market Device for detecting sealability and matched mature detection method in the disposable sack of pharmacy.

Utility model content

The purpose of the utility model is to provide a kind of convenient for detecting the close of itself test sample leakproofness with gas leakage Envelope property detector.

In order to realize the purpose of this utility model, the utility model provides a kind of detector for tightness.The sealing propertytest Instrument includes detection pipeline and the first gas ducting；The first end for detecting pipeline is equipped with air inlet, detects the second end bifurcated of pipeline Equipped with detection mouth and exhaust outlet, detection mouth is equipped with the first control valve, and exhaust outlet is equipped with the second control valve；Along detection pipeline First end towards detection pipeline second end extend direction, detect pipeline on be successively arranged third control valve, pressure reducing valve, adjusting Valve, first pressure sensor and the 4th control valve；The first end of first gas ducting is set to the first end and the of detection pipeline On detection pipeline between three control valves, the second end of the first gas ducting is set to the second of the 4th control valve and detection pipeline On detection pipeline between end；Along the first gas ducting first end towards the first gas ducting second end extend direction, The 5th control valve, second pressure sensor and the 6th control valve are successively arranged on first gas ducting.

As can be seen from the above scheme, by the way that the first gas ducting and detection pipeline is respectively set, and it is arranged on detection pipeline Pressure reducing valve and regulating valve are inflated convenient for first passing through the first gas ducting to test sample, in advance when in the first gas ducting When the pressure value of second pressure sensor is close to preset value, then exchange to detection pipeline to be inflated to test sample, then It adjusts the pressure reducing valve and regulating valve on detection pipeline and controls the air pressure being filled in test sample with accurate, and then convenient for accurate control Air pressure in test sample reaches preset value, in order to the later period leakage when, can more accurately to the atmospheric pressure value in test sample into The relevant slip of row calculates.

One specific scheme is that the 5th control valve is arranged close to the first end of the first gas ducting, and the 6th control valve leans on The second end of nearly first gas ducting is arranged.

As can be seen from the above scheme, the 5th control valve is arranged close to the first end of the first gas ducting, and the 6th control valve is close The second end of first gas ducting is arranged, convenient for when completely cutting off the first gas ducting and detection pipeline, by the first gas ducting and Detection pipeline is isolated entirely from.

Another specific scheme is, along the direction that the second end of first end towards the detection pipeline of detection pipeline extends, The 7th control valve and third pressure sensing are successively arranged on detection pipeline between first pressure sensor and the 4th control valve Device.

As can be seen from the above scheme, by the way that third pressure sensor is arranged, convenient in first pressure sensor and second pressure When sensor is mutually calibrated, third pressure value is provided and is mutually calibrated as first pressure sensor, second pressure sensor Benchmark, in order to eliminate first pressure sensor and second pressure sensor itself, there are the influences of numerical error.

Another specific scheme is additionally provided on the detection pipeline between the 4th control valve and the second end for detecting pipeline Temperature sensor.

As can be seen from the above scheme, by the way that temperature sensor is arranged, convenient for changing in temperature and then influencing pressure sensing When the measurement of device, by the temperature of temperature sensor measurement, calculating temperature difference is sought, then the temperature difference is substituted into P=ρ RT/M, It asks again and calculates corresponding pressure difference, if heating, subtracts corresponding pressure difference value for the pressure value in pressure sensor, if drop Pressure value in pressure sensor is then added corresponding pressure difference value, carries out temperature-compensating with this and eliminate temperature pair by temperature The influence of pressure sensor test.

Another specific scheme is that air inlet, exhaust outlet and detection mouth are connected separately with air filter.

As can be seen from the above scheme, by the way that air filter is arranged, convenient for entering the gas of air inlet, arrange from exhaust outlet Gas out and the gas progress aseptic filtration from detection mouth outflow, to avoid pollution detection sample and environment.

Another specific scheme is that detector for tightness further includes single-chip microcontroller, display, alarm, touch screen and beats Print machine, single-chip microcontroller are controlled with display, alarm, touch screen, printer, the first control valve, the second control valve, third respectively Valve, the 4th control valve, the 5th control valve, the 6th control valve, first pressure sensor and the electrical connection of second pressure sensor.

As can be seen from the above scheme, by single-chip microcontroller respectively with the first control valve, the second control valve, third control valve, the 4th Single-chip microcontroller is convenient in the connection of control valve, the 5th control valve, the 6th control valve, first pressure sensor and second pressure sensor To the first control valve, the second control valve, third control valve, the 4th control valve, the 5th control valve, the 6th control valve carry out open and Close control.By single-chip microcontroller respectively to first pressure sensor, second pressure sensor, display, alarm, touch screen and The connection of printer is preset the pressure value in first pressure sensor and second pressure sensor convenient for single-chip microcontroller, is supervised Control, show, obtain and print, and the pressure value in the first pressure sensor and second pressure sensor occur it is unstable and not When unanimous circumstances, corresponding warning function can be carried out.

Another specific scheme is, detector for tightness further includes the second gas ducting, the first of the second gas ducting End is set on the first gas ducting between second pressure sensor and the 6th control valve, and the second end of the second gas ducting is set to 4th control valve and detect pipeline second end between detection pipeline on, the second gas ducting be equipped with the 8th control valve, second The pipe diameter of gas ducting is different from the pipe diameter of the first gas ducting.

As can be seen from the above scheme, by the way that second gas ducting different from the first gas ducting diameter is arranged, convenient for choosing Pipe diameter of corresponding size is inflated test sample of corresponding size, is inflated when to the biggish test sample of volume When, it is inflated using the biggish detection pipeline of pipeline convenient for saving the time.

Another specific scheme is that the 8th control valve is arranged close to the second end of the second gas ducting.

As can be seen from the above scheme, the 8th control valve is arranged close to the second end of the second gas ducting, convenient in isolation second When gas ducting and detection pipeline, the second gas ducting and detection pipeline are isolated entirely from.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model detector for tightness embodiment one.

Fig. 2 is the structural schematic diagram of the utility model detector for tightness embodiment two.

The following is a further explanation of the present invention with reference to the accompanying drawings and embodiments.

Specific embodiment

Embodiment one

Referring to Fig. 1, the utility model detector for tightness embodiment one includes detection pipeline 1 and the first gas ducting 2.

The first end for detecting pipeline 1 is equipped with air inlet 11, and the second end bifurcated of detection pipeline 1 is equipped with detection mouth 12 and exhaust Mouth 13 is wherein equipped with the first control valve 61, is equipped with the second control valve 62 at exhaust outlet 13 at detection mouth 12.In air inlet 11, inspection It surveys at mouth 12 and exhaust outlet 13 and is also respectively connected with equipped with air filter 200.The air filter 200 be used for enter air inlet 11 gas carries out aseptic filtration from the gas flowed out in detection mouth 12 and the gas flowed out from exhaust outlet 13, to avoid dirt Contaminate test sample and environment.Along the direction that the second end of first end towards the detection pipeline 1 of detection pipeline 1 extends, pipeline 1 is detected On be successively arranged third control valve 63, pressure reducing valve 71, regulating valve 81, first pressure sensor 91, the 7th control valve 67, third pressure Force snesor 93, the 4th control valve 64 and temperature sensor 100.Wherein the detection range of third pressure sensor 93 is greater than first The detection range of pressure sensor 91, the detection accuracy of third pressure sensor 93 are greater than the detection essence of first pressure sensor 91 Degree.

Wherein pressure reducing valve 71 is used to control the air pressure size of the gas flowed into detection pipeline 1, and regulating valve 81 is for controlling The flow of the gas in detection pipeline 1 is flowed into, first pressure sensor 91 flows into test sample for detecting from detection pipeline 1 Atmospheric pressure value.

The first end 21 of first gas ducting 2 is set on the detection pipeline 1 between air inlet 11 and third control valve 63, the The second end 22 of one gas ducting 2 is set on the detection pipeline 1 between the 4th control valve 64 and temperature sensor 100.Along The direction that the second end 22 of the first end 21 of one gas ducting 2 towards the first gas ducting 2 extends, on the first gas ducting 2 successively Equipped with the 5th control valve 65, second pressure sensor 92 and the 6th control valve 66.Preferably, the 5th control valve 65 is filled close to first The first end 21 of feed channel 2 is arranged, and the 6th control valve 66 is arranged close to the second end 22 of the first gas ducting 2.Open the 6th control First gas ducting 2 can be connected to by valve 66 processed with detection pipeline 1.

Wherein second pressure sensor 92 is used to detect the atmospheric pressure value flowed into test sample from the first gas ducting 2.Its The detection accuracy of middle second pressure sensor 92 is less than the detection accuracy of third pressure sensor 93.

Before detection, third pressure sensor 93 is for carrying out school to first pressure sensor 91, second pressure sensor 92 It is quasi-.In the detection pipeline 1 and the first gas ducting 2 of sealing, by the way that third pressure sensor 93 is arranged, first pressure biography is given The calibration benchmark that sensor 91 and second pressure sensor 92 are mutually calibrated.In order to eliminate first pressure sensor 91 and the second pressure The influence that force snesor 92 generates experimental result due to the error of itself.Such as: when wherein first pressure sensor 91 and When the pressure value of three pressure sensors 93 is equal, the pressure value of second pressure sensor 92 is adjusted to and first pressure sensor 91 is consistent with third pressure sensor 93；When first pressure sensor 91, second pressure sensor 92 and third pressure sensor When 93 pressure value is incremented by successively, the pressure value of first pressure sensor 91 and third pressure sensor 93 is adjusted to and second Pressure sensor 92 is consistent.

Whether the gas that wherein the first control valve 61 is used to control detect in pipeline 1 and the first gas ducting 2 is from detection mouth It is flowed out in 12.Second control valve 62 is used to control the gas in detection pipeline 1 and the first gas ducting 2 whether from exhaust outlet 13 Outflow.Third control valve 63 is used to control whether gas to flow into detection pipeline 1 from air inlet 11.4th control valve 64 is used for Connection or isolation third pressure sensor 93 and second pressure sensor 92.5th control valve 65 for control gas whether from into Port 11 flows into the second gas ducting 3.7th control valve 67 is for being connected to or completely cutting off first pressure sensor 91 and third Pressure sensor 93.

Wherein temperature sensor 100 is for eliminating temperature to first pressure sensor 91, second pressure sensor 92 and the The influence for the pressure value that three pressure sensors 93 are measured.According to P=ρ RT/M, it is known that the variation of temperature has influence to atmospheric pressure value, And it is proportional between P and T.When heating causes atmospheric pressure value to become larger, the temperature difference that can be will heat up is substituting in P=ρ RT/M, Draught head brought by the temperature difference is acquired, then the atmospheric pressure value measured is subtracted corresponding draught head to obtain at identical temperature Atmospheric pressure value, measured with eliminating temperature to first pressure sensor 91, second pressure sensor 92 and third pressure sensor 93 Atmospheric pressure value measurement influence.

The utility model detector for tightness embodiment further includes that single-chip microcontroller (not shown), display (do not show in figure Out), alarm (not shown), touch screen (not shown) and printer, the single-chip microcontroller respectively with display, alarm Device, touch screen, printer, the first control valve 61, the second control valve 62, third control valve 63, the control of the 4th control valve the 64, the 5th Valve 65, the 6th control valve 66, the 7th control valve 67, first pressure sensor 91, second pressure sensor 92 and third pressure pass Sensor 93 is electrically connected.

By single-chip microcontroller respectively with the first control valve 61, the second control valve 62, third control valve 63, the 4th control valve 64, The electrical connection of 5th control valve 65, the 6th control valve 66, the 7th control valve 67, for controlling the control of the first control valve 61, second Valve 62, third control valve 63, the 4th control valve 64, the 5th control valve 65, the 6th control valve 66, the 7th control valve 67 opening and Closure.

It is electrically connected respectively with first pressure sensor 91, second pressure sensor 92 and touch screen by single-chip microcontroller, it can Prior to the preset pressure value of first pressure sensor 91 and second pressure sensor 92 is respectively set on touch screen, then pass through monolithic Machine can be pressed with monitoring whether first pressure sensor 91 and second pressure sensor 92 respectively reach preset pressure value in first When the pressure value of force snesor 91 reaches the preset pressure value of first pressure sensor 91, by single-chip microcontroller, the first control is closed Valve 61, and open the second control valve 62；And second pressure sensor 92 can be reached in the pressure value of second pressure sensor 92 When preset pressure value, by single-chip microcontroller, third control valve 63 and regulating valve 81 are closed.

It is electrically connected respectively with first pressure sensor 91, second pressure sensor 92 and display by single-chip microcontroller, just First pressure sensor 91, the pressure value of second pressure sensor 92 and third pressure sensor 93 are obtained in single-chip microcontroller, and anti- Display is fed to show.

It is electrically connected respectively with first pressure sensor 91, second pressure sensor 92 and alarm by single-chip microcontroller, when Single-chip microcontroller before detection, in the detection pipeline 1 and the second gas ducting 2 of connection, monitors first pressure sensor 91, second When the pressure value of 93 three of pressure sensor 92 and third pressure sensor is constantly in jiggly state, single-chip microcontroller can be triggered Alarm issues warning note, to remind user's detection pipeline 1 or the second gas ducting 2 that there are gas leak phenomenons.Work as monolithic simultaneously Machine before detection, in closed detection pipeline 1 and the second gas ducting 2, monitors first pressure sensor 91, second pressure In the case that the pressure value of 93 three of sensor 92 and third pressure sensor is inconsistent, single-chip microcontroller can also trigger alarm sending Warning note, to remind user by 93 three of first pressure sensor 91, second pressure sensor 92 and third pressure sensor Pressure value adjustment it is consistent.

It is electrically connected, is made with first pressure sensor 91, second pressure sensor 92 and printer respectively by single-chip microcontroller The pressure value that different time measures first pressure sensor 91 and second pressure sensor 92 can be stored and analyze by obtaining single-chip microcontroller Data, and printed data and data analysis result by printer.

The application method of the utility model detector for tightness embodiment is as follows:

Test sample in the present embodiment is the disposable sack of pharmacy.

S1: on touch screen to 91 preset upper limit value P1 of first pressure sensor, in touch screen to second pressure sensor 92 preset upper limit value P2, P1 are slightly larger than P2.Wherein P1 is the pressure value reached needed for the disposable sack of pharmacy, and P1 is system Attainable maximum gas pressure value under the disposable sack plastic deformation of medicine.

S2: closing the first control valve 61, the second control valve 62 and the 5th control valve 65, opens third control valve the 63, the 4th Control valve 64, the 6th control valve 66 and the 7th control valve 67 are inflated to detection pipeline 1, the first gas ducting 2, have inflated Bi Hou closes third control valve 63 by display and checks and judge first pressure sensor 91, second pressure sensor 92 Whether change with the pressure value of third pressure sensor 93.

S3: if the pressure value of first pressure sensor 91, second pressure sensor 92 and third pressure sensor 93 occurs The 7th control valve 67, the 4th control valve 64 and the 6th control valve 66 are closed in variation, by display, check that first pressure senses Whether the pressure value of device 91, third pressure sensor 93 and second pressure sensor 92 changes, if first pressure sensor 91 Pressure value changes, alarm equipment alarm, then replaces the detection pipeline 1 between third control valve 63 and the 7th control valve 67, weight It is new to execute S2；If the pressure value of third pressure sensor 93 changes, alarm equipment alarm, then the 7th control valve 67 and the are replaced Detection pipeline 1 between four control valves 64, re-executes S2；If the pressure value of second pressure sensor 92 changes, alarm Device alarm, then replace the first gas ducting 2, re-execute S2.

If the pressure value of first pressure sensor 91, second pressure sensor 92 and third pressure sensor 93 does not become Change, by display, checks the pressure value of first pressure sensor 91, second pressure sensor 92 and third pressure sensor 93 Whether consistent, if inconsistent, alarm equipment alarm reminds user by first pressure sensor 91, second pressure sensor 92 and the The pressure value adjustment of three pressure sensors 93 is consistent.

S4: closing third control valve 63, opens the second control valve 62, will test the gas in pipeline 1 and the first gas ducting 2 Body is discharged from exhaust outlet 13, closes the second control valve 62, the 4th control valve 64, the 6th control valve 66 and the 7th control valve 67.

S5: opening the first control valve 61, the 5th control valve 65 and the 6th control valve 66, the detection to being set in detection mouth 12 Sample is inflated, and when the pressure value in second pressure sensor 92 reaches P2, is automatically closed the first control valve 61, opens the Two control valves 62, the gas in the first gas ducting 2 is discharged from exhaust outlet 13, closes the control of the second control valve the 62, the 5th Valve 65 and the 6th control valve 66.

S6: the first control valve 61, third control valve 63, the 4th control valve 64 and the 7th control valve 67 are opened, decompression is passed through Valve 71 adjusts the air pressure in detection pipeline 1, adjusts the flow in detection pipeline 1,1 pair of pipeline inspection of control detection by regulating valve 81 The speed of sample inflation is automatically closed third control valve 63 and adjusts when first pressure sensor 91 reaches the P1 of setting Valve 81, it is discouraged to be carried out to test sample.

S7: it in bleeding process, is spaced identical time △ t and obtains and record the pressure difference value of first pressure sensor 91 △ P, and calculate corresponding slip V=△ P/ △ t, and draw out the curve graph between corresponding slip V and t, when letting out When leak rate maintains balance, maintaining the slip balanced is the slip of test sample.

S8: the slip and acceptance value that will test sample compare, if the slip of test sample is lower than acceptance value, The leakproofness of this test sample is good.

S9: opening the second control valve 62, closes the first control valve 61, will test gas in pipeline 1 from 13 row of exhaust outlet Out, the second control valve 62, the 4th control valve 64, the 6th control valve 66 and the 7th control valve 67 are closed.

Single-chip microcontroller in the present embodiment also has time computing function.When the disposable sack of pharmacy to same model After carrying out multiple sealing propertytest, can obtain from discouraged initial time reach slip balance terminate the time between when Between be spaced mean value T.It, can be prior in touch screen when testing again disposable the being sealed property of sack of the pharmacy of this model Input time interval T, control single chip computer after losing heart and starting, by time interval T and then the identical time △ t in interval with The pressure difference value △ P of first pressure sensor 91 is obtained and recorded, and calculates corresponding slip V=△ P/ △ t, at this time Slip is the slip of test sample.Since the method obtain always to discouraged termination compared to losing heart and record first The pressure difference value △ P of pressure sensor 91, and the operation of corresponding slip V=△ P/ △ t is calculated, reduce single-chip microcontroller Workload.

Embodiment two

Referring to fig. 2, the utility model detector for tightness embodiment two and embodiment one the difference is that, this is practical new Type detector for tightness embodiment two further includes the second gas ducting 3 and third gas ducting 4.

The first end 31 of second gas ducting 3 is filled set on first between second pressure sensor 92 and the 6th control valve 66 In feed channel 2, the second end 32 of the second gas ducting 3 be set to the first gas ducting 2 second end 22 and temperature sensor 100 it Between detection pipeline 1 on.

The 8th control valve 68 is equipped in the second gas ducting 3, it is preferable that the 8th control valve 68 is close to the second gas ducting 3 Second end 32 be arranged.The 8th control valve 68 is opened, the second gas ducting 3 is connected to detection pipeline 1.

The first end 41 of third gas ducting 4 and the first end 31 of the second gas ducting 3 mutually cross, third gas ducting 4 second end 42 is set on the detection pipeline 1 between the second end 32 and temperature sensor 100 of the second gas ducting 3.

The 9th control valve 69 is equipped in third gas ducting 4, it is preferable that the 9th control valve 69 is close to third gas ducting 4 Second end 42 be arranged.The 9th control valve 69 is opened, third gas ducting 4 is connected to detection pipeline 1.

The pipe diameter of first gas ducting 2, the second gas ducting 3 and third gas ducting 4 is sequentially increased.

According to the different disposable sack sizes of pharmacy, choose different pipelines to the disposable sack of pharmacy into Row inflation.Such as detection 50mL-1L pharmacy disposable sack when, by detection pipeline 1 to the disposable bag of pharmacy Son is inflated；When detecting the disposable sack of pharmacy of 5L-100L, pharmacy is disposably made by the first gas ducting 2 It is inflated with sack；When detecting the disposable sack of pharmacy of 200L-1000L, the 8th control valve 68 is opened, passes through second Gas ducting 3 is inflated the disposable sack of pharmacy；When detecting the disposable sack of pharmacy of 1500L-5000L, The 9th control valve 69 is opened, the disposable sack of pharmacy is inflated by third gas ducting 4.Using of corresponding size Gas ducting is inflated the disposable sack of pharmacy of corresponding size, and the gas ducting small compared to pipe diameter is to appearance Time saving, the gas ducting big compared to the pipe diameter pharmacy one small to volume when the disposable sack of the big pharmacy of product is inflated When secondary property is inflated using sack, not it is easier that the small disposable sack of pharmacy of volume is burst.

Single-chip microcontroller is also connect with the 8th control valve 68 and the 9th control valve 69 respectively simultaneously, can be used for controlling the 8th control 68 With the opening and closing of the 9th control valve 69.

Embodiment described above, only preferred embodiments of the utility model, be not to limit the utility model practical range, Therefore all equivalent change or modifications done according to structure, feature and principle described in present utility model application the scope of the patents, it should all wrap It includes in the utility model patent application range.

Claims (8)

1. a kind of detector for tightness, it is characterised in that:

The detector for tightness includes detection pipeline and the first gas ducting；

The first end of the detection pipeline is equipped with air inlet, and the second end bifurcated of the detection pipeline is equipped with detection mouth and exhaust Mouthful, the detection mouth is equipped with the first control valve, and the exhaust outlet is equipped with the second control valve；

Along the direction that the second end of first end towards the detection pipeline of the detection pipeline extends, on the detection pipeline according to It is secondary to be equipped with third control valve, pressure reducing valve, regulating valve, first pressure sensor and the 4th control valve；

The first end of first gas ducting is set to the institute between the first end and the third control valve of the detection pipeline It states on detection pipeline, the second end of first gas ducting is set to the second of the 4th control valve and the detection pipeline On the detection pipeline between end；

Along first gas ducting first end towards first gas ducting second end extend direction, described first The 5th control valve, second pressure sensor and the 6th control valve are successively arranged on gas ducting.

2. detector for tightness according to claim 1, it is characterised in that:

5th control valve is arranged close to the first end of first gas ducting, and the 6th control valve is close to described first The second end of gas ducting is arranged.

3. detector for tightness according to claim 1, it is characterised in that:

Along the direction that the second end of first end towards the detection pipeline of the detection pipeline extends, Yu Suoshu first pressure is passed The 7th control valve and third pressure sensor are successively arranged on the detection pipeline between sensor and the 4th control valve.

4. detector for tightness according to claim 1, it is characterised in that:

Temperature sensor is additionally provided on the detection pipeline between 4th control valve and the second end of the detection pipeline.

5. detector for tightness according to claim 1, it is characterised in that:

The air inlet, the exhaust outlet and the detection mouth are connected separately with air filter.

6. detector for tightness according to claim 1, it is characterised in that:

The detector for tightness further includes single-chip microcontroller, display, alarm, touch screen and printer, the single-chip microcontroller difference It is controlled with the display, alarm, touch screen, printer, first control valve, second control valve, the third Valve, the 4th control valve, the 5th control valve, the 6th control valve, the first pressure sensor and described second Pressure sensor electrical connection.

7. detector for tightness according to any one of claims 1 to 6, it is characterised in that:

The detector for tightness further includes the second gas ducting, and the first end of second gas ducting is set to second pressure On first gas ducting between force snesor and the 6th control valve, the second end of second gas ducting is set to On the detection pipeline between 4th control valve and the second end of the detection pipeline, second gas ducting is equipped with 8th control valve, the pipe diameter of second gas ducting are different from the pipe diameter of first gas ducting.

8. detector for tightness according to claim 7, it is characterised in that:

8th control valve is arranged close to the second end of second gas ducting.