CN103728105B - A kind of quantitative leak detecting device of pressure system - Google Patents

A kind of quantitative leak detecting device of pressure system Download PDF

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Publication number
CN103728105B
CN103728105B CN201310752089.2A CN201310752089A CN103728105B CN 103728105 B CN103728105 B CN 103728105B CN 201310752089 A CN201310752089 A CN 201310752089A CN 103728105 B CN103728105 B CN 103728105B
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pressure
chamber
leak
gas
balance tank
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CN103728105A (en
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马志刚
韩嘉兴
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Suzhou Bao Hua sealing Polytron Technologies Inc
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Suzhou Baohua Mechanical Technology Co Ltd
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Abstract

<b> the invention discloses the quantitative leak detecting device of a </b><bGreatT.Gre aT.GT pressure system, for quantitatively detecting the seal leakage of vapor compression system, wherein draw leakage chamber by arranging one on pressure system, the pressure chamber of pressure system is entered at the actuating medium that sealing place leaks out draws in leakage chamber, then by arranging balance tank, Synchronous Heating device, cooling device leaks the constant leak detection pipeline of chamber mineralization pressure with drawing, in balance tank, detection gas is constantly provided to ensure pressure constant in leak detection pipeline by gas-holder.Only need during detection detect the variable quantity of humidity in balance tank and collect the quality of the aqueous water weighing the not detected gas absorption of discharging in balance tank, and combine the volume of leak detection pipeline and gas-holder, just the concrete numerical value of the seal leakage amount of pressure system in certain hour can be obtained easily, to the sealing condition immediately knowing pressure system, the quantitative detection of seal leakage amount in multi-field vapor compression system can be applicable to according to sealing leakage rate.</b>

Description

A kind of quantitative leak detecting device of pressure system
Technical field
The present invention relates to a kind of quantitative leak detecting device of pressure system.
Background technology
In the industrial sectors such as nuclear power, thermoelectricity, the energy, often there is vapour system, these vapor compression system are the pressure systems formed by sealing between equipment and underwater flange.And for pressure system, leakage is absolute, not leaking, is relative, as long as the seal leakage amount of system meets the maximum permission slip index that the factors such as environmental protection, safety and economy determine, then can think that system is not leaked.Pressure system packoff is when manufacture, installation, debugging or running, not only need to know that it has No leakage, but also need the size knowing leakage rate, carrying out quantitative detection to the leakage rate of pressure system then becomes and judges that can leakage rate meet and allow to leak the key of index.Meanwhile, quantitatively detect supervision, can ensure the safe operation of system in the process that the running of pressure system packoff uses to its leakages, therefore, carrying out quantitative detection to the seal leakage of pressure system also becomes and judges to seal whether effectively gordian technique.
Summary of the invention
The object of this invention is to provide a kind of quantitative leak detecting device of pressure system, thus the seal leakage amount of vapor compression system is quantitatively detected.
For achieving the above object, the technical solution used in the present invention is: a kind of quantitative leak detecting device of pressure system, pressure system to be detected have closed and in be provided with the pressure chamber of actuating medium, described pressure chamber is arranged by the first seal sealing of circumference in closed form, the outside perimembranous of described first seal is equipped with the second seal, described first seal, forming airtight drawing of the actuating medium leaked out through described pressure chamber of collecting between described second seal and described pressure system leaks chamber, described leakage chamber of drawing has the import and outlet that are connected with described pressure system outside, described pick-up unit also comprises:
Gas-holder, stores the detection gas not easily making described first seal and described second seal oxidation or corrosion;
Balance tank, the pressure in described balance tank is steady state value, and described balance tank also has the inflation inlet be connected with described gas-holder and the drain be connected with outside, and described balance tank also has the air intake opening and gas outlet that lay respectively at two ends;
Synchronous Heating device, be connected to described balance tank described gas outlet and described draw leak chamber described import between, described detection gas for being discharged the described gas outlet through described balance tank carries out the temperature be heated to actuating medium described in described pressure chamber and is close, and draw described in the described detection gas after heating is passed through leak the described import in chamber be delivered to described in draw and leak chamber, described detection gas described draw leak in chamber be bled into described pressure chamber described in draw the described actuating medium leaking chamber and form potpourri;
Flowmeter, is located at the porch of described Synchronous Heating device, for detecting the flow of the gas passing into described Synchronous Heating device;
First hygronom, is located at the porch of described Synchronous Heating device, for detecting the absolute humidity of the gas passing into described Synchronous Heating device;
Cooling device, draws described in being connected to and leaks between chamber and the described air intake opening of described balance tank, for the described potpourri cooling by drawing the described outlet discharge of leaking chamber described in warp;
Second hygronom, is located at the exit of described cooling device, for detecting the humidity of the gas flowing into described balance tank through described cooling device,
3rd hygronom, for detecting the humidity of gas in described balance tank;
Collector tube, the bottom of described balance tank offers liquid collection opening, and the tube inlet of described collector tube is connected with described liquid collection opening, and the pipe exit of described collector tube is provided with hydrops bottle, and described tube inlet, described pipe exit are equipped with operation valve;
Weighing instrument, for weighing the liquid quality collected in described hydrops bottle,
Described balance tank, described Synchronous Heating device, described in draw leak chamber, described cooling device formed circulation be communicated with leak detection pipeline, be also provided with the ebullator that described detection gas can be made to circulate in described leak detection pipeline in described leak detection pipeline.
Preferably, described first seal, described second seal are grommet type seals.
Preferably, described pressure system comprises the vessel flange and end cap flange that interfix, described vessel flange has equipment cavity, described first seal is located between described vessel flange and described end cap flange hermetically, forms described pressure chamber between described equipment cavity and described end cap flange, described first seal.
Preferably, be provided with pressure maintaining valve between described gas-holder and the described inflation inlet of described balance tank, the described inflation inlet place of described balance tank is provided with the pressure detecting instrument that can detect and enter detection gaseous tension described in described inflation inlet after described pressure maintaining valve voltage stabilizing.
Preferably, described Synchronous Heating device and described draw leak also to be provided with between chamber for detect to flow into after described Synchronous Heating device heats described in draw the temperature sensor of the temperature of leaking detection gas described in chamber.
Preferably, draw described in leak the described outlet in chamber be located at described in draw the bottom of leaking chamber.
Preferably, the phase heterodoxy that described import and the described outlet of leaking chamber lay respectively at described pressure system is drawn described in.
Preferably, described pick-up unit also comprises the thermometer for detecting temperature in described balance tank.
Preferably, the transparent shape of described collector tube.
Due to the utilization of technique scheme, the present invention compared with prior art has following advantages:
The quantitative leak detecting device of pressure system of the present invention, for quantitatively detecting the seal leakage of vapor compression system, wherein draw leakage chamber by arranging one on pressure system, the pressure chamber of pressure system is entered at the actuating medium that sealing place leaks out draws in leakage chamber, then by arranging balance tank, Synchronous Heating device, cooling device leaks the leak detection pipeline that chamber forms a constant pressure with drawing, in balance tank, detection gas is constantly provided to ensure pressure constant in leak detection pipeline by gas-holder, the detection gas of relatively dry through Synchronous Heating device be heated to actuating medium temperature in pressure chamber as far as possible close to after be blown into draw and leak in chamber, detection gas draws the actuating medium leaked in chamber and is mixed to form potpourri drawing to leak in chamber to be bled into pressure chamber, then this potpourri is blown out, be cooled in certain temperature range through cooling device and make that the temperature of potpourri is not too high makes the steam state part in potpourri not be condensed simultaneously, passed into again in balance tank after cooling.
When leakage rate is less, the potpourri entering cooling device is the vapourous mixture of unsaturated state, by detect a period of time initial with at the end of humidity in balance tank, and total leakage rate in this period and slip can be known in conjunction with the volume of gas-holder and leak detection pipeline, when leakage rate is larger, the potpourri entering cooling device is the liquid-vapor mixture of hypersaturated state, also need the liquid by collecting this liquid part, the variable quantity of humidity in overall equilbrium tank again, the volume of gas-holder and leak detection pipeline knows total leakage rate in this period and slip.The concrete numerical value of the seal leakage amount of pressure system in certain hour can be obtained so easily, to the sealing condition immediately knowing pressure system, the quantitative detection of the seal leakage amount of equipment and underwater flange in the vapor compression system of the industrial sectors such as nuclear power, thermoelectricity, the energy can be applicable to according to sealing leakage rate.This structure of the detecting device is simple, detects operation also more for convenience.
According to the quantitative testing result of this leakage rate, following object can be reached:
1, can verify seal designs slip, thus the rationality of checking seal designs and security;
2, under can be used for variable working condition condition, the leakage rate of (temperature, pressure, medium etc. change) detects, and then operating mode (temperature, pressure, the medium etc.) corresponding relation between condition and leakage rate of seal can be obtained, thus the leakage rate under sealing part works condition can be determined, for the design such as link of seal and seal provides accurately Data support;
3, the situation of change of seal leakage rate under running conditions can be detected in time, according to the relation of operating condition and leakage rate, the safe and effective situation sealed can be judged, by the timely detection of leakage rate, can before leakage rate reaches leakage critical value, take safe and effective measure in advance, ensure the safe and reliable of sealing.Whether reliable the field that particularly some safety requirements are very high, as nuclear power and petrochemical industry etc., by the timely detection to seal leakage amount, can monitor sealing, in time for equipment safety operation provides safety guarantee.
Accompanying drawing explanation
Accompanying drawing 1 is the structural representation of pick-up unit of the present invention.
Wherein: 1, gas-holder; 2, balance tank; 3, ebullator; 4, Synchronous Heating device; 5, pressure system; 51, vessel flange; 52, end cap flange; 53, pressure chamber; 6, the first seal; 7, the second seal; 8, leakage chamber is drawn; 9, cooling device; 10, pressure maintaining valve; 11, pressure detecting instrument; 12, flowmeter; 13, the first hygronom; 14, temperature sensor; 15, the second hygronom; 16, the 3rd hygronom; 17, thermometer; 18, atmospheric valve; 19, collector tube; 20, operation valve, 21, operation valve; 22, hydrops bottle; 23, weighing instrument; 24, tensimeter.
Embodiment
Below in conjunction with accompanying drawing and preferred embodiment of the present invention, technical scheme of the present invention is further elaborated.
Pick-up unit for the present embodiment employing shown in Figure 1.Pressure system 5 to be detected is vapor compression system, it comprises the vessel flange 51 and end cap flange 52 that interfix, wherein vessel flange 51 has equipment cavity, end cap flange 52 is located at the oral area of equipment cavity for closing this equipment cavity, sealed by first seal 6 of circumference in closed form between end cap flange 52 and vessel flange 51, make equipment cavity and end cap flange 52, closed pressure chamber 53 is formed between first seal 6, namely the actuating medium of pressure system 5 is located in pressure chamber 53, actuating medium herein in pressure chamber 53 is steam or the water of High Temperature High Pressure.
In order to quantitatively detect the seal leakage amount of the first seal 6 on pressure system 5, the second seal 7 is also provided with between the vessel flange 51 of pressure system 5 and end cap flange 52, second seal 7 ring is located at the outside perimembranous of the first seal 6, here, first seal 6 and the second seal 7 all can adopt the O-ring seal of ring-type, and the diameter of the second seal 7 is greater than the diameter of the first seal 6.Like this, just define to draw between the vessel flange 51 of the first seal 6, second seal 7 and pressure system 5, end cap flange 52 and leak chamber 8, leak if the sealing of the pressure chamber 53 of pressure system 5 produces, then the actuating medium leaked out in pressure chamber 53 then can enter to draw and leak in chamber 8.The pressure born due to second seal 7 in outside is little, and basic No leakage in testing process, in testing process, its leakage rate can be ignored.Draw to leak on chamber 8 and offer the import and outlet that are connected with pressure system 5 outside, this import lays respectively at the different both sides of pressure system 5 with outlet.
Shown in Figure 1, this pick-up unit also comprises gas-holder 1, balance tank 2, Synchronous Heating device 4, cooling device 9, ebullator 3.
Gas-holder 1 stores detection gas, this detection gas need be selected according to the material of the first seal 6 and the second seal 7, the non-oxidizing gas as nitrogen, helium, air etc. can not produce oxidation to the first seal 6, second seal 7 or corrode can be adopted, detection gas can be avoided like this to be filled with draw leaking and oxidation or corrosion and the sealing of breaking pressure system 5 after in chamber 8, first seal 6 are occurred, also avoid it that the second seal 7 is occurred for oxidation reaction or corrosion and destroy the sealing of drawing and leaking chamber 8 and affect testing result.The exit of gas-holder 1 is provided with pressure maintaining valve 10 and pressure detecting instrument 11, detection gas in gas-holder 1 will pass in balance tank 2 after pressure maintaining valve 10 voltage stabilizing again, pressure detecting instrument 11 is for detecting the pressure entering detection gas in balance tank 2, and pressure detecting instrument 11 can adopt tensimeter or pressure transducer.
Balance tank 2 has the inflation inlet be connected with gas-holder 1 and the drain be connected with outside, constantly in balance tank 2, detection gas is supplemented by gas-holder 1, the pressure stability of balance tank 2 inside is at a steady state value, and this steady state value sets according to requirement when detecting.The lower end of balance tank 2 has gas outlet, and its upper end is air intake opening.
The gas outlet place of balance tank 2 is provided with ebullator 3, ebullator 3 is connected with Synchronous Heating device 4 again, detection gas in balance tank 2 pumps in Synchronous Heating device 4 and heats by ebullator 3, passing into after the detection gas-heated that this passes into by Synchronous Heating device 4 to draw leaks in chamber 8 again, Synchronous Heating device 4 should by detection gas-heated to close as far as possible with the temperature of actuating medium in the pressure chamber 53 of pressure system 5, the Local cooling causing the first seal 6 can be avoided like this, thus avoid the first seal 6 in testing process deform and cause the destruction to pressure system 5 sealing.
Cooling device 9 is connected to draw and leaks between chamber 8 and the air intake opening of balance tank 2, detection gas after Synchronous Heating device 4 heats enters to draw to leak after in chamber 8 and purges being bled into the actuating medium drawn in leakage chamber 8, detection gas draws the actuating medium leaked in chamber 8 and mixes mutually and form potpourri with being bled into drawing to leak in chamber 8, and the outlet of this potpourri through drawing leakage chamber 8 enters cooling device 9 and cool.Here, draw the outlet of leaking chamber 8 and be located at the bottom of drawing and leaking chamber 8, enter when leakage rate is larger like this to draw and leak the detection gas in chamber 8 when cannot absorb completely the actuating medium leaked out, the actuating medium can being convenient to leak out flows out from above-mentioned outlet and enters cooling device 9.Draw the import in leakage chamber 8 and export the phase heterodoxy laying respectively at pressure system 5, apart from each other between such import and outlet, be convenient to enter the detection gas drawing leakage chamber 8 and fully blow out being bled into the actuating medium drawn in leakage chamber 8.When leakage rate is less, the aqueous water leaked out and water vapor can be detected by gas absorption, and make said mixture be steam state, and when leakage rate is larger, the aqueous water of part can not be detected by gas absorption, detection gas presents hypersaturated state, then said mixture presents the potpourri of vapour-liquid mixing.This potpourri is cooled to less than 200 DEG C by cooling device 9, after cooling, the temperature of potpourri is advisable between 105 DEG C ~ 200 DEG C, thus make its temperature both not too high, also make the steam state part in potpourri not be condensed simultaneously, again its air intake opening through balance tank 2 is passed in balance tank 2 after cooling device 9 cools.
Like this, balance tank 2, described Synchronous Heating device 10, draw and leak chamber 8, cooling device 9 and just forms the leak detection pipeline that circulation is communicated with, detection gas can be made to circulate in this leak detection pipeline by the effect of ebullator 3 thus detect the leakage rate of drawing in leakage chamber 8.Because gas-holder 1 supplements detection gas constantly in balance tank 2, the ducted pressure of this leak detection is steady state value.
Shown in Figure 1, the porch of Synchronous Heating device 4 is provided with flowmeter 12 and the first hygronom 13, be respectively used to detect flow, the absolute humidity of the detection gas passing into Synchronous Heating device 4, another tensimeter 24 is also provided with, to detect the ducted pressure condition of this leak detection between flowmeter 12 and ebullator 3.The outlet of Synchronous Heating device 4 and draw leak chamber 8 import between be provided with temperature sensor 14, after Synchronous Heating device 4 heats, pass into the temperature of drawing and leaking detection gas in chamber 8 with monitoring, this temperature should be close with the temperature of actuating medium in pressure chamber 53 as far as possible.The second hygronom 15 is provided with, for detecting the humidity entering the vapourous mixture of balance tank 2 after cooling device 9 cools between the outlet of cooling device 9 and the air intake opening of balance tank 2.Balance tank 2 place is provided with for detecting the 3rd hygronom 16 of gas humidity in balance tank 2 and the thermometer 17 for monitoring its internal temperature.
Shown in Figure 1, in order to Leakage prevention amount larger time the actuating medium that leaks out in the part of not detected gas absorption is detected, the bottom of balance tank 2 offers liquid collection opening, this liquid collection opening place is connected with the collector tube 19 of transparence, operation valve 20 is provided with between the tube inlet of collector tube 19 and liquid collection opening, the pipe exit of collector tube 19 is provided with hydrops bottle 22, operation valve 21 is provided with between collector tube 19 and hydrops bottle 22, at detection gas when hunting leak circular leak hunting in pipeline, operation valve 20 is in open mode, operation valve 21 is closed, when the actuating medium of not detected gas absorption enters after balance tank 2 forms hydrops just flow into collector tube 19 through cooling device 9 condensation, when observe in collector tube 19 have hydrops time, just first closed control valve 20, then open operation valve 21 hydrops to be transferred in hydrops bottle 22, and then closed control valve 21, open operation valve 20, continue said process.Collect hydrops knows its weight by weighing instrument 23 weighing in hydrops bottle 22.
When starting to detect, first by closing the valve of balance tank 2 air intake opening and gas outlet two place, the atmospheric valve 18 at drain place is opened, in balance tank 2, the detection gas of constant pressure is filled with by gas-holder 1, simultaneously by evacuate air original in balance tank 2, when after evacuate air original in balance tank 2, close the atmospheric valve 18 at drain place, open the valve at balance tank 2 air intake opening and gas outlet two place, detection gas is filled with constantly in balance tank 2, make ducted constant pressure of hunting leak, now can start leak detection operation.
During detection, record testing result is as follows respectively:
The absolute humidity of the first hygronom 13 is H 1(gram/cubic metre);
The absolute humidity of the second hygronom 15 is H 2(gram/cubic metre);
The absolute humidity of the 3rd hygronom 16 is H 3(gram/cubic metre);
Flow q(cube m/h of flowmeter 12);
The volume of gas-holder 1: V 1(cubic meter);
Leak detection conduit volume: V 2(cubic meter)
Hydrops bottle 22 weighs the weight of the liquid obtained: g(gram)
So just, leakage rate and slip can be calculated, as follows respectively:
Under unsaturated state, namely during g=0:
Instantaneous leak rate is: L '=(H 2-H 1) × q, unit: Grams Per Hour;
The interior total leakage rate of t detection time:
L "=(H 3"-H 3') × (V 1+ V 2), unit: gram;
Wherein: H 3humidity in '-detection time t initial balance tank 2,
H 3" the humidity at the end of-detection time t in balance tank 2.
T internal leakage detection time rate: L=L "/t, unit: Grams Per Hour.
Under hypersaturated state, namely during g > 0:
The interior total leakage rate of t detection time:
L "=(H 3"-H 3') × (V 1+ V 2)+g, unit: gram;
Wherein: H 3humidity in '-detection time t initial balance tank 2,
H 3" the humidity at the end of-detection time t in balance tank 2.
T internal leakage detection time rate: L=L "/t, unit: Grams Per Hour.
To sum up, pick-up unit of the present invention is adopted just can quantitatively to detect the leakage rate of pressure system 5 easily, immediately can know the sealing condition of pressure system 5, be applicable to nuclear power, thermoelectricity, the quantitative detection of the seal leakage amount of equipment and underwater flange in the vapor compression system of the industrial sectors such as the energy, according to the quantitative testing result of this leakage rate, not only can verify seal designs slip, thus the rationality of checking seal designs and security, and can be used for (temperature under variable working condition condition, pressure, media etc. change) leakage rate detect, and then the operating mode (temperature of seal can be obtained, pressure, medium etc.) corresponding relation between condition and leakage rate, thus the leakage rate under sealing part works condition can be determined, for the design such as link of seal and seal provides accurately Data support.
In addition, above-mentioned detection device and the seal leakage amount of detection method to pressure system 5 is adopted quantitatively to detect, the situation of change of seal leakage rate under running conditions can be detected in time, according to the relation of operating condition and leakage rate, the safe and effective situation sealed can be judged, by the timely detection of leakage rate, can before leakage rate reaches leakage critical value, take safe and effective measure in advance, ensure the safe and reliable of sealing.Whether reliable the field that particularly some safety requirements are very high, as nuclear power and petrochemical industry etc., by the timely detection to seal leakage amount, can monitor sealing, in time for equipment safety operation provides safety guarantee.
Above-described embodiment, only for technical conceive of the present invention and feature are described, its object is to person skilled in the art can be understood content of the present invention and implement according to this, can not limit the scope of the invention with this.All equivalences done according to Spirit Essence of the present invention change or modify, and all should be encompassed within protection scope of the present invention.

Claims (9)

1. the quantitative leak detecting device of a pressure system, pressure system (5) to be detected have closed and in be provided with the pressure chamber (53) of actuating medium, described pressure chamber (53) is arranged by the first seal (6) sealing of circumference in closed form, the outside perimembranous of described first seal (6) is equipped with the second seal (7), described first seal (6), forming airtight drawing of the actuating medium leaked out through described pressure chamber (53) of collecting between described second seal (7) and described pressure system (5) leaks chamber (8), described draw leak chamber (8) there is the outlet be connected with described pressure system (5) outside, it is characterized in that: described in draw leak chamber (8) also there is the import be connected with described pressure system (5) outside, described pick-up unit also comprises:
Gas-holder (1), stores the detection gas not easily making described first seal (6) and described second seal (7) oxidation or corrosion;
Balance tank (2), pressure in described balance tank (2) is steady state value, described balance tank (2) also has the inflation inlet be connected with described gas-holder (1) and the drain be connected with outside, and described balance tank (2) also has the air intake opening and gas outlet that lay respectively at two ends;
Synchronous Heating device (4), be connected to described balance tank (2) described gas outlet and described draw leak chamber (8) described import between, described detection gas for being discharged the described gas outlet through described balance tank (2) carries out the temperature be heated to actuating medium described in described pressure chamber (53) and is close, and by heating after described detection gas pass through described in draw leak chamber (8) described import be delivered to described in draw leak chamber (8), described detection gas described draw leak in chamber (8) be bled into described pressure chamber (53) described in draw the described actuating medium leaking chamber (8) and form potpourri,
Flowmeter (12), is located at the porch of described Synchronous Heating device (4), for detecting the flow passing into the gas of described Synchronous Heating device (4);
First hygronom (13), is located at the porch of described Synchronous Heating device (4), for detecting the absolute humidity passing into the gas of described Synchronous Heating device (4);
Cooling device (9), draws described in being connected to and leaks between chamber (8) and the described air intake opening of described balance tank (2), for cooling through the described described potpourri drawing the described outlet discharge of leaking chamber (8);
Second hygronom (15), is located at the exit of described cooling device (9), for detecting the humidity of the gas flowing into described balance tank (2) through described cooling device (9),
3rd hygronom (16), for detecting the humidity of gas in described balance tank (2);
Collector tube (19), the bottom of described balance tank (2) offers liquid collection opening, the tube inlet of described collector tube (19) is connected with described liquid collection opening, the pipe exit of described collector tube is provided with hydrops bottle (22), described tube inlet, described pipe exit are equipped with operation valve (20,21);
Weighing instrument (23), for weighing the liquid quality collected in described hydrops bottle (22),
Described balance tank (2), described Synchronous Heating device (4), described in draw leak chamber (8), described cooling device (9) formed circulation be communicated with leak detection pipeline, be also provided with the ebullator (3) that described detection gas can be made to circulate in described leak detection pipeline in described leak detection pipeline.
2. the quantitative leak detecting device of pressure system according to claim 1, is characterized in that: described first seal (6), described second seal (7) are grommet type seals.
3. the quantitative leak detecting device of pressure system according to claim 1 and 2, it is characterized in that: described pressure system (5) comprises the vessel flange (51) and end cap flange (52) that interfix, described vessel flange (51) has equipment cavity, described first seal (6) is located between described vessel flange (51) and described end cap flange (52) hermetically, forms described pressure chamber (53) between described equipment cavity and described end cap flange (52), described first seal (6).
4. the quantitative leak detecting device of pressure system according to claim 1, it is characterized in that: be provided with pressure maintaining valve (10) between the described inflation inlet of described gas-holder (1) and described balance tank (2), the described inflation inlet place of described balance tank (2) is provided with the pressure detecting instrument (11) that can detect and enter detection gaseous tension described in described inflation inlet after described pressure maintaining valve (10) voltage stabilizing.
5. the quantitative leak detecting device of pressure system according to claim 1, is characterized in that: described Synchronous Heating device (4) and described draw leak also to be provided with between chamber (8) for detect to flow into after described Synchronous Heating device (4) is heated described in draw the temperature sensor (14) of the temperature of leaking detection gas described in chamber (8).
6. the quantitative leak detecting device of pressure system according to claim 1, is characterized in that: described in draw leak chamber (8) described outlet be located at described in draw leak chamber (8) bottom.
7. the quantitative leak detecting device of the pressure system according to claim 1 or 6, is characterized in that: described in draw the phase heterodoxy that described import and the described outlet of leaking chamber (8) lay respectively at described pressure system (5).
8. the quantitative leak detecting device of pressure system according to claim 1, is characterized in that: described pick-up unit also comprises the thermometer (17) for detecting temperature in described balance tank (2).
9. the quantitative leak detecting device of pressure system according to claim 1, is characterized in that: described collector tube (19) transparent shape.
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CN203629754U (en) * 2013-12-31 2014-06-04 苏州宝骅机械技术有限公司 A quantitative leakage detection apparatus for a pressure system

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Address after: Shuangfeng town Taicang city Suzhou City, Jiangsu province 215415 rich economic development zone

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