CN209570302U - A kind of leakage system safety testing device for space flight low-temperature composite material component - Google Patents

Abstract

The utility model discloses a kind of leakage system safety testing devices for space flight low-temperature composite material component, including liquid helium bottle, vacuum pump, helium mass spectrometer leak detector, liquidometer, test tank and hermetically sealed can, breathable membrane is provided in test tank, the top cover of test tank is equipped with helium inlet A and exhaust outlet A, liquid helium bottle is connected with helium inlet A, vacuum pump is connected by vacuum line and helium mass spectrometer leak detector with test tank, the bottom plate of hermetically sealed can is equipped with step aperture, and composite element setting is tightly connected in step tapping and with hermetically sealed can；The helium inlet B and exhaust outlet B of hermetically sealed can pass through pipeline respectively and are connected with the helium inlet A of test tank and exhaust outlet A.The leakage system safety testing device of the utility model can highly restore locating low temperature environment when composite element is on active service, and realize and carry out the leakage detection of low temperature to composite element；The utility model provides necessary detection device for the research and development for the composite system of resistance to extreme environment.

Description

A kind of leakage system safety testing device for space flight low-temperature composite material component

Technical field

The utility model relates to detect the engineering device technique field of material seepage property, particularly, it is related to a kind of for space flight The leakage system safety testing device of low-temperature composite material component.

Background technique

Space launch vehicle as can by the spaces device such as artificial satellite, space station, airship be sent into cosmic space it is important Flight carrier is the important symbol of a National Airspace scientific and technological level.Future Spacecraft and the development trend of carrier rocket are tools Standby high carrying capacity, while its manufacturing cost is utmostly reduced, such as inexpensive spacecraft, Reusable launch vehicles, list Grade, which is entered the orbit, waits spacecrafts, this just needs for the transmitting total weight of spacecraft to be preferably minimized.In order to realize high delivery power, low cost boat The development of its device it may first have to which solution is exactly the excessive problem of aircraft overall weight.Propellant tank is as carrier rocket One of chief component, occupy very large space, be main loss of weight component.

The development of low-temperature composite material component is the key that carry out next-generation space exploration and creation New Launch one Step.Currently, the aviation vehicle of mainstream attempts weight and production cost that complete machine is reduced using composite material in the world, Systems in Certain Developed Countries is successfully applied among the manufacture of aerospace craft Cryogenic tank.Traditional low temp fuel tank is big It is all to be prepared by metal material (such as high strength alumin ium alloy etc.) by welding procedure, but with the height of composite technology Speed development and the gradually application in aerospace field, the especially composite system of cold cycling good mechanical performance Constantly research and development, so that becoming the main direction of development of space launch vehicle lighting without liner full composite material Cryogenic tank.It is compound Material has higher specific strength and specific modulus compared to metal material, while having both excellent anti-fatigue performance.Composite material Cryogenic tank can be realized loss of weight target 20-40% lower than current aluminium alloy tank, and various advanced used by it The assembly of components can be greatly reduced in moulding process, greatly enhance production efficiency, shorten the production cycle, reach The purpose for reducing production cost is arrived.However, due to the cryogenic media (such as liquid oxygen, liquid hydrogen) held inside space launch vehicle tank Small molecule characteristic, material internal is easily penetrated by the manufacturing defect of tank；Meanwhile in order to maintain the liquid of low temp fuel State, generally there are the pressure of 0.2-0.3MPa in tank, huge pressure difference and long-term alternating hot and cold circulation of bearing inside and outside cabinet are answered The complex working conditions such as power can make material internal generate micro-crack, and the continuous of micro-crack extends and be connected to and cryogenic media can be caused to leak The problem of, it finally results in tank and fails and destroy.Therefore, normal, low temperature is carried out to composite element and sample before serving to seep The test of leakage property is very necessary.

Currently, the domestic leakage test method of composite material generallyd use is the pressure difference based on GB/T 1038-2000 Method.The method is suitable for measuring the gas transit dose and gas transmission coefficient of plastic film and thin slice.Utilize plastic film or thin Piece separates high and low pressure chamber, and the test gas of 0.1MPa is filled with into hyperbaric chamber, with vacuum pump by low pressure after sample is sealed Air in room is extracted into close to zero.The indoor pressure increment of low pressure is measured using manometer, that is, can determine test gas by height Pressure chamber is through films/sheets to low-pressure chamber using the time as the gas flow of function.The method can be used for penetrating for most of gas and measure It is fixed, there is certain universality；But the transit dose of gas needs to carry out subsequent calculation processing, complex steps and can introduce error； Meanwhile the method can only carry out the measurement of gas transit dose under room temperature, not be related to the test of fluid seepage under low temperature.

Those skilled in the art improves the infiltration for detecting material at normal temperature or low temperature to above-mentioned test method Performance is leaked, such as discloses one kind application No. is the application for a patent for invention of CN201610810397.X and detects at normal temperature or low temperature The method and apparatus of material seepage property, this method and device are based on pressure differential method and fluorescence method dual principle, in test sample Upper surface covering fluoroscopic leak test liquid and the high pressure gas for being passed through specified pressure calculate sample according to the gas pressure change of lower surface Gas transit dose, and by ultraviolet light sample lower surface observe fluorescence leakage situation, to determine leak location.In addition, By be mixed with fluorescer and liquid nitrogen to obtain low temperature fluoroscopic leak test liquid, it can be achieved that under low temperature material seepage property detection. But this method still need by gas pressure change calculate sample gas transit dose, complex steps and not intuitively；Together When, the low temperature for being only simply covered on specimen surface using mixture prepared low temperature fluoroscopic leak test liquid, therefore obtaining leaks Testing result also has deviation.

In addition, application No. is the patent applications of CN201811612392.1 to disclose a kind of ring network cabinet SF6 gas tank helium inspection system System and method are applicable in and carry out dry type leak detection to 10kV ring network cabinet SF6 gas tank.The system includes the vacuum for placing examined workpiece Case leakage detection apparatus, for vacuum box leak detection device and examined workpiece fill helium and recycle helium helium recyclable device, for pair The helium mass spectrometer leak detector that examined workpiece is hunted leak and the PLC for controlling helium recyclable device and helium mass spectrometer leak detector.Though the system So can judge at normal temperature whether examined workpiece is qualified using helium and helium mass spectrometer detector, but the system obviously cannot be used In the leakage test of space flight low-temperature composite material component under cryogenic.

Therefore, it is necessary to be directed to seepage property and prevention of the space flight low-temperature composite material component under extremely low temperature for this field Research is made in corrective measure.

Utility model content

The purpose of this utility model is to provide a kind of leakage system safety testing device for space flight low-temperature composite material component, Locating low temperature when composite element is on active service can not be highly restored to solve material seepage property detection device in the prior art The problem of environment.

To achieve the above object, the utility model provides a kind of leakage survey for space flight low-temperature composite material component Trial assembly is set, and the leakage system safety testing device is described for detecting the seepage property of space flight low-temperature composite material component at low temperature Leakage system safety testing device includes liquid helium bottle, vacuum pump, helium mass spectrometer leak detector, liquidometer, test tank and for placing composite material The hermetically sealed can of component, the test tank include tank body and the top cover for sealing the tank body, are provided in the test tank Air bound plate, the top cover are equipped with helium inlet A and exhaust outlet A, and the liquid helium bottle passes through pipeline and the helium inlet A phase Even, the vacuum pump is connected by vacuum line with the helium mass spectrometer leak detector, and the helium mass spectrometer leak detector passes through vacuum line It is connected with the vacuum pumping opening of the tank body, the hermetically sealed can is arranged on the breathable membrane, on the bottom plate of the hermetically sealed can Equipped with step aperture, the composite element setting is tightly connected in the step tapping and with the hermetically sealed can, described The helium inlet B and exhaust outlet B of hermetically sealed can pass through pipeline respectively and are connected with the helium inlet A of the test tank and exhaust outlet A, institute It states helium inlet B and exhaust outlet B is arranged on the upper lid of the hermetically sealed can, the upper of the hermetically sealed can is arranged in the liquidometer Cover the height for measuring the liquid helium in injection hermetically sealed can.

Preferably, the leakage system safety testing device further includes that can be used to detect space flight low-temperature composite material component at normal temperature Seepage property helium tank, pressure gauge and triple valve, triple valve setting the liquid helium bottle and the helium inlet A it Between pipeline on, the helium tank is connected by pipeline with the helium inlet A, and the pressure gauge setting is on the hermetically sealed can For monitoring the pressure of gas in hermetically sealed can constantly.

Preferably, the breathable membrane is the stainless steel plate with several ventholes, the breathable membrane level and height Adjustably it is arranged in the test tank.

Preferably, the vacuum pumping opening is arranged on the side wall of the tank body, and the vacuum pumping opening is equipped with quick Connector, the helium mass spectrometer leak detector are connected by vacuum line with the quick coupling.

Preferably, the step aperture includes the first aperture recessed down at the top of hermetically sealed can bottom plate and from the first aperture Bottom surface downward through the sealing tank bottom the second aperture, the shape of first aperture and the composite element Shape is adapted, and the supporting table for being used to support the composite element is formed between second aperture and the first aperture Rank.

Preferably, the composite element is arranged on support level, the composite element by sealant with The sealing tank bottom is tightly connected.

Preferably, the front of the tank body is equipped with for monitoring whether state and each instrument numerical value of confirmation in tank normally regard Window.

Preferably, it is additionally provided on the top cover of the test tank convenient for opening the top cover handle of the test tank, the exhaust The valve for adjusting capacity size is equipped at mouth A.

Preferably, the test tank and hermetically sealed can are made of low-carbon alloy steel.

Compared with the prior art, the utility model has the following beneficial effects:

(1), the leakage system safety testing device for space flight low-temperature composite material component of the utility model, including liquid helium bottle, Vacuum pump, helium mass spectrometer leak detector, liquidometer, test tank and hermetically sealed can are provided with breathable membrane, the top cover of test tank in test tank It is equipped with helium inlet A and exhaust outlet A, liquid helium bottle is connected by pipeline with helium inlet A, and vacuum pump passes through vacuum line and helium Mass-spectrometer leak detector is connected, and helium mass spectrometer leak detector is connected by vacuum line with the vacuum pumping opening of tank body, and hermetically sealed can is arranged saturating On air bound plate, the bottom plate of hermetically sealed can is equipped with step aperture, composite element setting step tapping and with hermetically sealed can it is close Envelope connection, the helium inlet B and exhaust outlet B of hermetically sealed can pass through the helium inlet A and exhaust outlet A phase of pipeline and test tank respectively Even, liquidometer is arranged on hermetically sealed can for measuring the height of the liquid helium in injection hermetically sealed can.The utility model is directed to composite wood Expect the problem of issuable cryogenic media leaks under the extreme service condition of complexity locating for component, be based on GB/T1038-2000, A kind of leakage system safety testing device that can highly restore locating low temperature environment when composite element is on active service is devised, is realized to multiple Condensation material component carries out the leakage detection of low temperature；The utility model can exclude environment, in material by introducing helium mass spectrometer leak detector The influence of gas and vapor to pressure differential method test result, accurate, the intuitive seepage property for reflecting testpieces under different condition, Necessary detection device is provided for the research and development for the composite system of resistance to extreme environment.

(2), the leakage system safety testing device for space flight low-temperature composite material component of the utility model, further includes helium Bottle, pressure gauge and triple valve, triple valve are arranged on the pipeline between liquid helium bottle and helium inlet A, helium tank by pipeline with The triple valve of test tank is connected, and the pressure on composite element for gas in moment monitoring hermetically sealed can is arranged in pressure gauge. The structure setting makes the leakage system safety testing device of the utility model, and the leakage detection of low temperature can be carried out to composite element by removing In addition, additionally it is possible to for carrying out the leakage detection of room temperature to composite element.

(3), the leakage system safety testing device for space flight low-temperature composite material component of the utility model, step aperture include From the first aperture recessed down of hermetically sealed can bottom plate top and from the bottom surface of the first aperture downward through the second of sealing tank bottom Aperture, the shape of the first aperture are adapted with the shape of composite element, and are formed and used between the second aperture and the first aperture In the support level of support composite element.In the structure setting, composite element can be arbitrary shape；Composite material Sealant is arranged in the periphery of component, makes to seal between component and hermetically sealed can with composite material；Specifically, it seals on tank bottom The second aperture the size for being sized to be slightly smaller than composite element, in order to avoid composite element is fallen from tapping.

Other than objects, features and advantages described above, there are also other purposes, feature and excellent for the utility model Point.Below with reference to figure, the utility model is described in further detail.

Detailed description of the invention

The attached drawing constituted part of this application is used to provide a further understanding of the present invention, the utility model Illustrative embodiments and their description are not constituteed improper limits to the present invention for explaining the utility model.In attached drawing In:

Fig. 1 is the structural schematic diagram of embodiment 1 in the utility model；

Fig. 2 is the enlarged structure schematic diagram of hermetically sealed can in embodiment 1 in the utility model；

Fig. 3 is the structural schematic diagram of embodiment 2 in the utility model；

Fig. 4 is the enlarged structure schematic diagram of hermetically sealed can in embodiment 2 in the utility model；

Wherein, 1, liquid helium bottle, 2, vacuum pump, 3, vacuum line, 4, helium mass spectrometer leak detector, 5, quick coupling, 6, helium injection Mouth A, 7, liquidometer, 8, top cover handle, 9, pressure gauge, 10, exhaust outlet A, 11, top cover, 12, form, 14, test tank, 15, helium Bottle, 16, hermetically sealed can, 17, breathable membrane, 18, composite element, 19, sealant, 20, helium inlet B, 21, exhaust outlet B, 22, upper cover, 23, triple valve.

Specific embodiment

The embodiments of the present invention are described in detail below in conjunction with attached drawing, but the utility model can be according to power Benefit requires to limit and the multitude of different ways of covering is implemented.

Embodiment 1

Referring to Fig. 1 and Fig. 2, a kind of leakage test for space flight low-temperature composite material component of the utility model fills It sets, including liquid helium bottle 1, vacuum pump 2, helium mass spectrometer leak detector 4, liquidometer 7, test tank 14 and for placing composite element 18 Hermetically sealed can 16, test tank includes tank body and the top cover 11 for sealed shell of tank, breathable membrane 17 is provided in tank body, on top cover Equipped with helium inlet A6 and exhaust outlet A10, liquid helium bottle is connected by pipeline with helium inlet A6, and vacuum pump passes through vacuum line 3 It is connected with helium mass spectrometer leak detector, helium mass spectrometer leak detector is connected by vacuum line 3 with the vacuum pumping opening of tank body, and vacuum pump is used for Space between test tank and hermetically sealed can is vacuumized, to exclude influence of the helium ingredient to test result in air, is guaranteed The helium ingredient that helium mass spectrometer leak detector detects all is by leaking in hermetically sealed can.Preferably, vacuum pumping opening setting exists On the side wall of tank body, vacuum pumping opening is equipped with quick coupling 5, and helium mass spectrometer leak detector passes through vacuum line 3 and quick coupling phase Even.

Hermetically sealed can is arranged on breathable membrane, and the bottom plate of hermetically sealed can 16 is equipped with step aperture；Composite element is set It sets in step tapping and is tightly connected with hermetically sealed can.The helium inlet B20 and exhaust outlet B21 of hermetically sealed can pass through respectively pipeline with The helium inlet A6 of test tank is connected with exhaust outlet A10, and helium inlet B and exhaust outlet B are arranged in the upper cover 22 of hermetically sealed can； Liquidometer is arranged on the top cover 22 of hermetically sealed can for measuring the height of the liquid helium in injection hermetically sealed can.The present embodiment it is leakage In test device, due to that can volatilize in liquid helium injection process, the pressure in hermetically sealed can be made to increase, thus be arranged in a device Exhaust outlet A and exhaust outlet B keeps liquid helium in hermetically sealed can in certain height to be discharged the helium by volatilizing in liquid helium in time, So that liquid helium keeps injection and volatilization and forms a dynamic equilibrium process.

In the present embodiment, step aperture include from recessed down and the first aperture of shape at the top of hermetically sealed can bottom plate and from Second aperture of the bottom surface of first aperture downward through sealing tank bottom, the shape and the shape of composite element 18 of the first aperture Shape is adapted, and the support level for being used to support composite element is formed between the second aperture and the first aperture.The structure is set In setting, composite element can be arbitrary shape；Sealant is arranged in the periphery of composite element, makes component with composite material It can be sealed between hermetically sealed can；Specifically, seal second aperture on tank bottom is sized to be slightly smaller than composite element Size, in case composite element is fallen from tapping.Leakage under the low-temperature condition of missile propellant application, at sealant It also can be ignored relative to the leakage at composite element.

In the present embodiment, breathable membrane is the stainless steel plate with several ventholes, and breathable membrane is horizontal and height can Ground is adjusted to be arranged in test tank.Breathable membrane is used to support hermetically sealed can, and it is suitable in test tank that hermetically sealed can is smoothly placed in Position, in order to operate and test；The gas permeability design of partition is to facilitate in vacuum pump work by down space on partition It all vacuumizes, creates the overall vacuum environment in test tank.

In the present embodiment, the tank body front of test tank is equipped with for monitoring state in tank and whether confirming each instrument numerical value Normal form 12.It is additionally provided on the top cover of test tank convenient for opening the top cover handle 8 of test tank, is equipped with and uses at exhaust outlet A10 In the valve for adjusting capacity size.

In a kind of specific embodiment, test tank and hermetically sealed can are made of low-carbon alloy steel.

It is seeped at low ambient temperatures using the leakage system safety testing device of the present embodiment is accidental to space flight low-temperature composite material Leak performance test, test method specifically: composite element 18 to be tested is placed in bottom with step aperture first In hermetically sealed can 16, hermetically sealed can is put on the breathable membrane 17 in test tank 14, by the helium inlet B and exhaust outlet on hermetically sealed can B respectively with the helium inlet A6 in test tank is corresponding with exhaust outlet A10 is connected to, close the top cover 11 of test tank；Then by liquid helium Bottle 1 is connected to the helium inlet A in test tank by pipeline；Vacuum pump and helium mass spectrometer leak detector are opened, is first excluded in air Influence of the helium ingredient to test result vacuumizes the space between test tank and hermetically sealed can until helium mass spectrometer leak detector registration When being zero or being steadily lower than some numerical value, the open state of vacuum pump and helium mass spectrometer leak detector is kept, test starts；Open liquid Helium bottle valve, the small flow of control liquid helium, which injects in hermetically sealed can, to be pre-chilled, and reduces rapidly the temperature in hermetically sealed can, the liquid helium of volatilization can It is discharged by exhaust outlet B and exhaust outlet A；Liquid helium injection rate, observation 7 registration of liquidometer variation are increased after a period of time；Observation is simultaneously The variation of helium mass spectrometer leak detector registration is recorded, the seepage property of composite element at low ambient temperatures is obtained；After being completed, close Liquid helium bottle valve, vacuum pump and helium mass spectrometer leak detector are closed, liquid helium volatilizees naturally in tank to be sealed.

Embodiment 2

Referring to Fig. 3 and Fig. 4, on the basis of above-described embodiment 1: the leakage system safety testing device of the present embodiment further includes that can use In helium tank 15, pressure gauge 9 and the triple valve 23 of the seepage property of detection space flight low-temperature composite material component at normal temperature, threeway Valve 23 is arranged on the pipeline between liquid helium bottle 1 and helium inlet A6, and helium tank is connected by pipeline with triple valve, and pressure gauge is set It sets on hermetically sealed can, the pressure for gas in moment monitoring hermetically sealed can.The structure setting can be more by helium source by triple valve Conveniently and safely switch between liquid helium bottle 1 and helium tank 15, so that the leakage system safety testing device of the present embodiment, removing can be to multiple Condensation material component carries out other than the leakage detection of low temperature, additionally it is possible to for carrying out the leakage inspection of room temperature to low-temperature composite material component It surveys.

On the basis of above-described embodiment 1, using the leakage system safety testing device of the present embodiment to space flight low-temperature composite material Component carries out seepage property test under normal temperature environment method particularly includes: is operated first triple valve 23, makes helium tank 16 and survey The helium inlet A tried on tank is connected to by pipeline；Vacuum pump and helium mass spectrometer leak detector are opened, the helium ingredient in air is first excluded Influence to test result, vacuumizes the space between test tank and hermetically sealed can and helium mass spectrometer leak detector registration is zero or stablizes When ground is lower than some numerical value, the open state of vacuum pump and helium mass spectrometer leak detector is kept, test starts；Open helium bottle valve to Helium is injected in hermetically sealed can, when learning that sealing pressure inside the tank reaches certain value from pressure gauge 9, is closed the valve of helium tank, is stopped Helium is only injected into hermetically sealed can, observes and records the numerical value of percolation ratio on helium mass spectrometer leak detector；After being completed, vacuum is closed Pump and helium mass spectrometer leak detector open exhaust outlet A10, the helium in hermetically sealed can quickly be discharged.

The above descriptions are merely preferred embodiments of the present invention, is not intended to limit the utility model, for this For the technical staff in field, various modifications and changes may be made to the present invention.It is all in the spirit and principles of the utility model Within, any modification, equivalent replacement, improvement and so on should be included within the scope of protection of this utility model.

Claims (9)

1. a kind of leakage system safety testing device for space flight low-temperature composite material component, which is characterized in that the leakage test For device for detecting the seepage property of space flight low-temperature composite material component at low temperature, the leakage system safety testing device includes liquid helium Bottle (1), vacuum pump (2), helium mass spectrometer leak detector (4), liquidometer (7), test tank (14) and for placing composite element (18) hermetically sealed can (16), the test tank include tank body and the top cover (11) for sealing the tank body, are set in the tank body Be equipped with breathable membrane (17), the top cover is equipped with helium inlet A (6) and exhaust outlet A (10), the liquid helium bottle by pipeline and The helium inlet A (6) is connected, and the vacuum pump is connected by vacuum line (3) with the helium mass spectrometer leak detector, the helium matter Spectrum leak detector is connected by vacuum line (3) with the vacuum pumping opening of the tank body, and the hermetically sealed can (16) is arranged described On air bound plate, the bottom plate of the hermetically sealed can is equipped with step aperture, and the composite element is arranged in the step tapping And be tightly connected with the hermetically sealed can, the helium inlet B (20) and exhaust outlet B (21) of the hermetically sealed can pass through pipeline and institute respectively The helium inlet A (6) for stating test tank is connected with exhaust outlet A (10), and the helium inlet B and exhaust outlet B are arranged at described close In the upper cover (22) of sealed cans, the liquidometer is arranged in the upper cover (22) of the hermetically sealed can for measuring in injection hermetically sealed can The height of liquid helium.

2. leakage system safety testing device according to claim 1, which is characterized in that the leakage system safety testing device further includes energy For detecting the helium tank (15), pressure gauge (9) and triple valve of the seepage property of space flight low-temperature composite material component at normal temperature (23), on the pipeline that the triple valve is arranged between the liquid helium bottle (1) and the helium inlet A (6), the helium tank is logical Piping is connected with the helium inlet A (6), and the pressure gauge is arranged in the upper cover (22) of the hermetically sealed can supervises for the moment Survey the pressure of gas in hermetically sealed can.

3. leakage system safety testing device according to claim 1, which is characterized in that the breathable membrane is with several ventilations The stainless steel plate in hole, the breathable membrane is horizontal and height is adjustably arranged in the test tank.

4. leakage system safety testing device according to claim 1, which is characterized in that the vacuum pumping opening is arranged in the tank On the side wall of body, the vacuum pumping opening be equipped with quick coupling (5), the helium mass spectrometer leak detector by vacuum line (3) with The quick coupling is connected.

5. leakage system safety testing device according to claim 1, which is characterized in that the step aperture includes from hermetically sealed can bottom At the top of plate the first aperture recessed down and from the bottom surface of the first aperture downward through the second aperture of the sealing tank bottom, institute The shape for stating the first aperture is adapted with the shape of the composite element (18), and second aperture and the first aperture it Between formed and be used to support the support level of the composite element.

6. leakage system safety testing device according to claim 5, which is characterized in that the composite element setting is supporting On step, the composite element is tightly connected by sealant (19) and the sealing tank bottom.

7. leakage system safety testing device according to claim 1, which is characterized in that the front of the tank body is equipped with for monitoring State and each whether normal form (12) of instrument numerical value of confirmation in tank.

8. leakage system safety testing device according to claim 1, which is characterized in that be additionally provided with just on the top cover of the test tank The valve for adjusting capacity size is equipped at the top cover handle (8) for opening the test tank, the exhaust outlet A (10).

9. leakage system safety testing device according to claim 1, which is characterized in that the test tank and hermetically sealed can are by low-carbon Steel alloy is made.