• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The invention relates to a tank for storing liquid or gaseous media under pressure, comprising an inner casing (14) defining a storage chamber, said inner casing (14) comprising an opening (15), a base (13) placed in the level of said opening (15) for providing the inner / outer connection of said tank and a mechanical reinforcing shell (16) surrounding at least said inner shell (14). According to the invention, - said base (13) comprises a first (22, 25) base portion secured solely to said inner casing (14) and a second (23, 27) base portion secured solely to said casing ( 16) of mechanical reinforcement, said first and second base portions being distinct and not interconnected, the space separating said base portions forming a vent ensuring the evacuation of gases having passed through the wall of the envelope ( 14) inside.
    公开号:FR3015629A1
    申请号:FR1363266
    申请日:2013-12-20
    公开日:2015-06-26
    发明作者:Guillaume Fourage;Laurent Lagunegrand;Pardieu Jean De
    申请人:EADS Composites Aquitaine;
    IPC主号:
    专利说明:

    [0001] BACKGROUND OF THE INVENTION Field of the Invention The present invention relates to a tank for storing liquid or gaseous media under pressure. The invention also relates to a transport means such as an automobile or an aircraft, equipped with at least one such tank. TECHNOLOGICAL BACKGROUND The high calorific value of hydrogen and its conversion into water vapor, therefore non-polluting, when used in an engine, make this gas a promising alternative energy to fossil fuels. A great deal of research is being conducted to ensure the safe and large volume transport of hydrogen for the purpose of fueling hybrid vehicles. For their transport, such gases are typically compressed in tanks intended for the storage of gas under high pressure (between 200 and 1000 bars for example), most often cylindrical, which are closed by domes each provided with or without tip. To resist the high pressures of the gases thus stored, these tanks comprise a liner placed in a reinforcing envelope made of composite material. Conventionally, the deposition of the fibers and the resin to form the reinforcing envelope is achieved by a filament winding.
    [0002] The tanks can thus be of several types, either with a metal liner covered with a layer of composite on its central part (Type II), or with a metal liner entirely covered with composite (Type III), or with a plastic liner covered with composite (Type IV). The main advantages of thermoplastic liners over metal liners lie in their lower weight and a higher mechanical resistance to cyclic stresses. However, for Type IV tanks, degradations of the casing by permanent deformation of the polymer liner were observed when the emptying rate was too high. This phenomenon is commonly called "collapse" or "blistering" of the liner. One of the possible reasons for this phenomenon is the relative permeability to the stored gas of the constituent polymeric material of the liner. Part of the gas initially stored inside the liner thus passes through the wall of the liner. However, in conventional tanks, the liner is bonded to the reinforcing envelope which prevents the evacuation to the outside of the gas having passed through the wall of the liner, which is therefore trapped. There is formation of 20 gas pockets between the outer surface of the liner and the inner surface of the reinforcing shell. When emptying the tank, a pressure difference can be created between the gap with the pockets of gas and the interior volume of the liner leading to the formation of blisters. These blisters disappear after refilling of the reservoir to reappear at a later use of the reservoir. Such permanent deformation can lead to cracks or cracks in the liner wall, which can lead to tank damage and dangerous leaks. In order to overcome this disadvantage, it has been proposed to make composite tanks for pressurized gases provided with gas evacuation paths having passed through the wall of the liner to the outside. In particular, it is known from the state of the art, a reservoir comprising a base equipped with a valve, the assembly consisting of this base and this valve having a gas evacuation zone having passed through the wall of the liner to the atmosphere, which passes through the thickness of the valve body.
    [0003] However, the realization of such a base / valve assembly is particularly laborious because it requires the creation of a plurality of openings to define the evacuation zone, for which it is necessary to ensure their setting in communication of fluid. Furthermore, this assembly requires the implementation of additional parts such as several seals. This results in additional manufacturing costs and a great complexity of the tank. In addition, this gas evacuation zone opens at the outer surface of the base in contact with or placed in the immediate vicinity of the reinforcing envelope made of composite material. However, during the manufacture of such a reservoir, a creep of the resin is observed which can come to block the gas evacuation zone and thus render the latter inoperative. The present invention aims at overcoming these various disadvantages of the prior art by proposing a gas storage tank under simple pressure in its design and in its operating mode, which is economical and allows the filling, storage and emptying of a gas. under pressure without risk of deterioration thereof. Another object of the present invention is a tank provided with a gas evacuation zone having passed through the wall of the liner, which is protected from any pollution external to the tank. BRIEF DESCRIPTION OF THE INVENTION To this end, the invention relates to a reservoir for the storage of liquid or gaseous media under pressure, comprising an inner envelope defining a storage chamber, said inner envelope comprising an opening, a base placed at the level of said opening for providing the inner / outer connection of said tank and a mechanical reinforcing shell surrounding at least said inner shell. According to the invention, said base comprises a first base portion integral only with said inner envelope and a second base portion integral only with said mechanical reinforcing envelope, said first and second base portions being distinct and not interconnected between them, - the space separating said base portions forming a vent ensuring the evacuation of gas having passed through the wall of the inner casing.
    [0004] Preferably, this base is only formed of said first base portion and said second base portion, said first and second base portions being configured to cooperate to form said base. Of course, this vent is in fluid communication with the space, or gap, separating the outer surface of said inner envelope from the inner surface of said reinforcement shell of the storage tank so as to ensure the evacuation of the gases having passed through. the wall of the inner envelope. The vent, which is thus formed in the thickness of the base, is internal to the body of the base and opens at its two ends on external areas of the base which are not in communication with the casing. mechanical reinforcement. This advantageously prevents any risk of obstruction or vents during the manufacture of the tank. The lower surface of the base is, moreover, placed opposite a contact surface of the inner casing so that the latter is placed under the base. This base may be entirely metal or alloy, or comprise a metal or alloy insert coated at least in part with a plastic interface to facilitate the assembly of the inner casing and the base. Alternatively, this base can be made of plastic or reinforced plastic material. By way of purely illustrative example, the plastic is reinforced with short or long fibers or crushed, or with balls. These fibers and beads may be glass or carbon. Such a base thus advantageously makes it possible: to evacuate in an easy manner the gases which have passed through the wall of the inner casing at the level of the internal channel of the base, which opens onto the outside of the tank, and to avoid any degradation of the mechanical strength of the tank even in case of accelerated emptying of its contents. The mechanical reinforcing envelope is disposed on at least a portion of the inner envelope surrounding it. The present reservoir has applications in the fields using pressure storage containers such as automobile, aerospace, etc. In various particular embodiments of this reservoir, each having its particular advantages and likely to numerous possible technical combinations: the inner envelope has an opening at its two ends, each of its ends receiving a base. By way of purely illustrative example, a first of these bases comprises a connection such as a tap, the other end comprising a member selected from the group comprising a tap, a pressure and / or temperature sensor and / or of humidity, an accelerometer, a safety device, a PRD-type safety device ("Pressure Relief Device"), a TPRD-type safety device ("Thermal Pressure Relief Device" - " Thermal expansion device ") and combinations of these elements. Alternatively, the inner casing has at one of its ends an opening, the other end being closed and the open end receives a base. - this base having a hollow cylindrical neck portion defining an inner channel and an annular portion, each base portion comprises a portion of this neck portion and a portion of this annular portion of the base, these portion portions of each defining an inner channel, or an opening, which are coaxial or not, - this base is only metal or alloy or comprises a metal or alloy insert at least a portion of its surface is covered with an interface plastic, at least a portion of the bottom surface of said annular portion adjacent said channel being unenclosed by said plastic interface. - At least in the so-called full tank position where said inner envelope is filled and under pressure, the channels of said neck portion portions are non-communicating.
    [0005] In other words, said channels do not open into each other. Preferably, the free end of the neck portion portion of the first base portion is level, that is to say flush, or placed above the free end of the portion of the portion of the neck portion. collar of the second base portion. these channels open into each other. Preferably, these channels are then coaxial. - Said second base portion being fixed, said first base portion is movable relative to said second base portion between a first so-called full tank position where said inner casing is filled and under pressure, said first portion of base is at least partially in contact with said second base portion, and a second position called empty reservoir, where said inner envelope being empty of its contents, the free end of the neck portion portion of said first portion of The base portion is surrounded at least in part by the neck portion portion of the second base portion so that said neck portion portions of said base portions remain engaged at least partially in each other. Of course, the first base portion can explore any position between these two extreme positions depending on the empty state of the inner envelope. Similarly, in the second so-called empty reservoir position, the portion of said annular portion of the first base portion is placed at a distance from the portion of said annular portion of the second base portion. Advantageously, the first base portion comprises a portion of conical male neck portion and the second base portion comprises a portion of conical female neck portion, said conical neck portion portions cooperating with each other to define said neck portion. of said base. Advantageously, this frustoconical shape of the neck portion portions of the first and second base portions allows a guide of the first base portion during its displacement relative to the second fixed base portion. In addition, this frustoconical shape of the neck portion portions of the base portions advantageously allows a portion of the forces applied to the first movable base portion and related to the internal pressure of the inner envelope to be transferred to the portion conical female neck portion of the second base portion. There is thus a significant decrease in the stresses on the annular portion of the base. More generally, there is a region of the neck portion of the base for which the outer diameter of the neck portion portion of the first base portion decreases in the direction of evacuation of gases, it is that is to say towards the outlet of the reservoir, while the inside diameter of the neck portion portion of the second base portion decreases in going in the same direction of evacuation of gases. As a purely illustrative example, the neck portion portion of the first base portion has a flared shape going from the outlet of the reservoir to the inner casing, this shape being frustoconical, conical, rounded, .. - The reservoir comprises at least one means forming a stop to prevent disengagement of said base portions, - the reservoir comprises means for locking in rotation of said base portions between them.
    [0006] This locking means can be made to limit the rotation of a base portion relative to the other base portion. By way of example, it is thus possible to connect the coupling to the first base portion secured to the inner casing without this base portion rotating relative to the second base portion. at least a portion of the lower surface of said annular portion has one or more grooves opening at one of their ends into said at least one vent and at their other end at the periphery of said annular portion so as to form collection paths; and evacuation of trapped gases, - said inner casing is metallic or plastic, - said annular portion of the base has a tapered profile in a triangle or substantially delta towards its periphery, - said reservoir is equipped with a seal sealing or plug to prevent pollution of the space separating the outer surface of said inner casing and the inner surface of said reinforcement shell of the storage tank. Advantageously, such a plug acting as dust cover, prevents any pollution of the space separating the outer surface of said inner envelope and the inner surface of said reinforcement shell of the storage tank, when the storage tank does not is not in use. Similarly, a seal placed at the end of the neck and in contact with a connector provides this function when the tank is in use. - the tank is filled with a gas or a mixture of gases. For purely illustrative purposes, this gas may be air, nitrogen, helium, hydrogen or the like. The present invention also relates to a transport means equipped with at least one reservoir as described above.
    [0007] This means of transport may be an aircraft or a vehicle such as a truck or an automobile. The present invention also relates to the use of the tank as described above as a gas or fuel supply source. Such a tank can be used as a stationary power source or onboard a transport means. For purely illustrative purposes, such a tank may be used as a power source for a fuel cell or in a filling or distribution plant such as a service station. The present invention further relates to the use of the reservoir as previously described as an energy store. BRIEF DESCRIPTION OF THE DRAWINGS Other advantages, aims and particular features of the present invention will emerge from the description which follows, for an explanatory and non-limiting purpose, with reference to the appended drawings, in which: FIG. tank for the storage of gas under pressure according to a first embodiment of the present invention, - Figure 2 is an enlarged and partial view of the end of said tank of FIG. FIG. 3 is a partial sectional view of a reservoir for storing pressurized gas according to a second embodiment of the present invention, the reservoir being full, FIG. 4 shows the reservoir of FIG. . 3 after it has been used, the inner casing being emptied of its gas. FIG. 5 is a partial sectional view of a reservoir for the storage of pressurized gas according to a third embodiment of the present invention, the reservoir being full, FIG. 6 shows the reservoir of FIG. 5 after it has been used, the inner casing being emptied of its gas. FIG. 7 is a partial sectional view of a reservoir for the storage of gas under pressure according to a fourth embodiment of the present invention, the reservoir being full, FIG. 8 shows the reservoir of FIG. 7 after it has been used, the inner casing being emptied of its gas. DETAILED DESCRIPTION OF EMBODIMENTS OF THE INVENTION Firstly, it is noted that the figures are not to scale. Figures 1 and 2 describe a tank for storing pressurized gas according to a first embodiment of the present invention. This tank 10 comprises a substantially cylindrical central portion 11 closed at its two ends by domes 12. One of these 30 domes 12 is provided with a base 13 to ensure the internal / external connection of the tank, and therefore the filling in gas and dump. For this purpose, this base 13 is particularly intended to receive a connection such as a valve, a valve or a pipe. The reservoir 10 has a tight inner casing 14, still called a liner, defining a storage chamber in which a pressurized gas is to be stored. This liner 14 has at one of its ends a circular opening 15. The liner 14 here consists of a polymer such as polyamide, high density polyethylene (HDPE), polyurethane (PU), ...
    [0008] The liner 14 is also surrounded by a mechanical reinforcing envelope 16 for mechanically reinforcing the reservoir to withstand the pressure of the gas stored in the storage chamber. This reinforcing envelope 16 is, for example, made of a composite material obtained by filament winding of unidirectional fibers impregnated with resin. Each layer is oriented relative to the longitudinal axis of the reservoir of a winding angle. Long fibers are preferably used which provide better resistance to successive and repetitive deformations, for example glass or carbon fibers bonded together by a resin such as an epoxy resin.
    [0009] The base 13 has a hollow cylindrical neck portion 17 defining an inner channel 18 and an annular portion 19 extending from the lower part of the neck portion 17. This annular portion 19 comprises a lower surface 20, this surface lower part constituting the lower surface of the base 13, which is placed vis-à-vis a contact surface 21 of the liner 14. This base 13 is, moreover, formed of a first 22 element of integral base only the liner 14 and a second base member 23, distinct from the first 22 base member and secured to the single envelope 16 mechanical reinforcement. These base members 22, 23 have a geometry advantageously ensuring a cooperation of their shapes to form the base. The base 13 is made of a metal material or alloy. For purely illustrative purposes, it is here made of steel. Alternatively, the base members 22, 23 constituting the base 13 are made of different materials. The two base elements 22, 23 of the reservoir are not connected to each other so that the second base element 23 being fixed because linked to the mechanical reinforcement envelope 16, the first base element 22 moves relative to the other. to the second base member 23 when the storage chamber is emptied of its contents.
    [0010] Furthermore, each base member 22, 23 comprising a portion of the neck portion 17 of the base 13 and a portion of the annular portion 19 of this base, each neck portion of these base members 22 , 23 which is here cylindrical hollow, defines a separate inner channel having a main axis. These inner channels of the neck portions of the base members 22, 23 are coaxial while the upper ends of these neck portions are level, or flush, when the storage chamber is filled and under pressure. Thus, these inner channels do not open into each other when the storage chamber is in its so-called full tank position. To allow movement of the first base member 22 relative to the second base member 23, the connection (not shown) intended to be partially received in the inner channel 18 of the base is attached or integrated only in the collar portion of the first base member. Nevertheless, these first and second base members are configured so that when the reservoir storage chamber is emptied of its contents, the neck portion of the first base member remains engaged in the neck portion of the second base element. The space separating the first and second base members 22, 23 defines a vent 24 ensuring the evacuation of the gases that have passed through the wall of the liner 14. Of course, this vent 24 is in fluid communication with the space, or interstice, separating the outer surface of the liner 14 from the inner surface of the reinforcing shell 16. It is advantageously found that this tank, which is simple in its design and in its operating mode, ensures effective evacuation of the gases that have passed through the liner wall 14. FIGS. 3 and 4 show a gas storage tank under pressure according to a second embodiment of the invention. embodiment of the present invention. For brevity, the elements of Figures 3 and 4 with the same references as the elements of Figures 1 and 2 represent the same objects, which will not be described again below. The reservoir of Figures 3 and 4 differs from that of Figures 1 and 2 in that the first base member only integral with the liner 14 has a conical male neck portion 26 while the second base member 27, separate from the first single base element 26 and integral with the envelope 16 of mechanical reinforcement, comprises a conical female neck portion 28.
    [0011] This geometry of the neck portions 27, 28 advantageously provides a guide of these neck portions 26, 28 one in the other during filling of the storage chamber. The vent 29 is thus formed by the space separating the first and second base members 25, 27.
    [0012] This vent 29 is of evolutionary geometry when the storage chamber is emptied of its contents or filled and put under pressure. Figures 5 and 6 show a pressurized gas storage tank according to a third embodiment of the present invention. For the sake of brevity, the elements of Figures 5 and 6 bearing the same references as the elements of Figures 3 and 4 represent the same objects, which will not be described again below. The reservoir of FIGS. 5 and 6 differs from that of FIGS. 3 and 4 in that: on the one hand, the first base element only integral with the liner 14 comprises in the upper part of its frustoconical neck portion 26. and on its outer surface, right-angled, or flat, cutouts 30 defining laterally on the outer surface of said neck portion 26, two planar faces, and - on the other hand, the second, separate base member 27 of the first base member and secured to the sole envelope 16 of mechanical reinforcement, comprises in the upper part of its frustoconical neck portion 28, and on the inner surface of this neck portion 28, cutouts 31 at right angles, or flats whose shape cooperates with that of the cutouts 30 of the neck portion 26 of the first base member 25 to lock in rotation the base members 25, 27 between them. Figures 7 and 8 show a gas storage tank under pressure according to a fourth embodiment of the present invention. For the sake of brevity, the elements of Figures 7 and 8 with the same references as the elements of Figures 3 and 4 represent the same objects, which will not be described again below.
    [0013] The reservoir of FIGS. 7 and 8 differs from that of FIGS. 3 and 4 in that: on the one hand, the first base member only integral with the liner 14 comprises, in the upper part of its frustoconical neck portion 26, and on its outer surface, an elastic ring 32 surrounding said neck portion 26, and - on the other hand, the second base member 27, distinct from the first base member and integral with the sole reinforcing shell 16 mechanical, has in the upper part of its frustoconical neck portion 28, and on the inner surface of this neck portion 28, a groove 33 receiving said elastic ring 32 and whose thickness of the groove 33 determines the displacement path of the first base member relative to the second base member.
    [0014] It is thus possible to lock in translation said first base member while guiding its movement. Alternatively, it may still be possible to block in translation the first base member through the connection intended to be fixed in the channel 18 of the base. This connection which would present, for this purpose, a T-shaped section, have an outer diameter of the head of this cap greater than the diameter of the channel 18 so that this head comes to bear on the upper flange of the second 27 base member when emptying the tank, it would prevent the first base member from moving further.
    权利要求:
    Claims (15)
    [0001]
    REVENDICATIONS1. A tank for storing liquid or gaseous media under pressure, comprising an inner envelope (14) defining a storage chamber, said inner envelope (14) comprising an opening (15), a base (13) placed at said opening ( 15) to provide the inner / outer connection of said tank and a mechanical reinforcing shell (16) surrounding at least said inner casing (14), characterized in that - said base (13) comprises a first (22, 25) portion of a base secured solely to said inner casing (14) and a second (23, 27) base portion secured solely to said casing (16) mechanical reinforcement, said first and second base portions being distinct and not related to each other the space separating said base portions forming a vent ensuring the evacuation of the gases having passed through the wall of the inner envelope (14).
    [0002]
    2. Tank according to claim 1, characterized in that said base (13) having a hollow cylindrical neck portion defining an inner channel and an annular portion, each of said base portions comprises a portion of said neck portion and a portion said annular portion of said base (13), said neck portion portions each defining an inner channel, which are coaxial or not.
    [0003]
    3. Tank according to claim 2, characterized in that at least in the so-called full tank position where said inner casing (14) is filled and under pressure, the channels of said neck portion portions are non-communicating.
    [0004]
    4. Tank according to any one of claims 1 to 3, characterized in that the free end of the neck portion portion of the first (22, 25) base portion is level or placed above the free end of the portion of the neck portion of the second (23, 27) base portion.
    [0005]
    5. Tank according to claim 2, characterized in that said channels open into one another.
    [0006]
    6. Tank according to any one of claims 2 to 5, characterized in that said second (23, 27) base portion being fixed, said first (22, 25) base portion is movable relative to said second (23, 27) base portion between a first position called full tank where said inner casing (14) is filled and under pressure, said first (22, 25) base portion is at least partially in contact with said second (23, 27) base portion, and a second position said empty reservoir, wherein said inner shell (14) being empty of its contents, the free end of the neck portion portion of said first (22, 25) base portion is surrounded at least in part by the neck portion portion of the second base portion so that said neck portion portions of said base portions remain engaged at least partially within one another .
    [0007]
    7. Tank according to claim 6, characterized in that the first (22, 25) base portion comprises a conical male neck portion and the second (23, 27) base portion comprises a conical female neck portion, said conical neck portions cooperating with each other to define said neck portion of said base.
    [0008]
    8. Tank according to any one of claims 1 to 7, characterized in that it comprises at least one stop means for preventing disengagement of said base portions.
    [0009]
    9. Tank according to any one of claims 1 to 8, characterized in that it comprises means for locking in rotation of said base portions (22, 23) therebetween.
    [0010]
    10. Tank according to any one of claims 1 to 9, characterized in that at least a portion of the lower surface has one or more grooves opening at one of their ends in said one vent and at their other end at the periphery. of said annular portion so as to form trapped gas collection and evacuation paths.
    [0011]
    11. Tank according to any one of claims 1 to 10, characterized in that said inner casing (14) is metallic or plastic.
    [0012]
    12. Tank according to any one of claims 1 to 11, characterized in that it is filled with a gas or a mixture of gases.
    [0013]
    13. Transport means equipped with at least one tank according to any one of claims 1 to 12.
    [0014]
    14. Use of the tank according to any one of claims 1 to 12 as a source of gas or fuel.
    [0015]
    15. Use of the reservoir according to any one of claims 1 to 12 as energy accumulator
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    同族专利:
    公开号 | 公开日
    FR3015629B1|2016-01-29|
    EP2889527A3|2016-04-06|
    EP2889527A2|2015-07-01|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    JP2009216133A|2008-03-07|2009-09-24|Toyota Motor Corp|Gas cylinder and gas exhaust hole formation method of the gas cylinder|
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    WO2010091062A1|2009-02-06|2010-08-12|Lincoln Composites, Inc.|Pressure vessel longitudinal vents|
    WO2013000956A1|2011-06-28|2013-01-03|Ragasco As|Improved boss for composite container|US10648620B2|2016-03-16|2020-05-12|Hexagon Technology As|Vented fitting for pressure vessel boss|
    FR3094068A1|2019-03-22|2020-09-25|Faurecia Systemes D'echappement|Pressurized gas tank|
    US10627048B2|2015-12-16|2020-04-21|Hexagon Technology, As|Pressure vessel dome vents|
    US10088110B2|2016-05-17|2018-10-02|Hexagon Technology As|Pressure vessel liner venting via nanotextured surface|
    DE102017206338A1|2017-04-12|2018-10-18|Bayerische Motoren Werke Aktiengesellschaft|Method for pressure relief of a pressure vessel and pressure vessel|
    FR3087245B1|2018-10-11|2021-12-31|Stelia Aerospace Composites|ANTI-COLLAPSE DEVICE FOR PRESSURIZED GAS STORAGE TANK|
    法律状态:
    2015-10-23| CD| Change of name or company name|Owner name: STELIA AEROSPACE COMPOSITES, FR Effective date: 20150923 |
    2015-12-23| PLFP| Fee payment|Year of fee payment: 3 |
    2016-12-29| PLFP| Fee payment|Year of fee payment: 4 |
    2017-12-29| PLFP| Fee payment|Year of fee payment: 5 |
    2019-12-27| PLFP| Fee payment|Year of fee payment: 7 |
    2020-12-31| PLFP| Fee payment|Year of fee payment: 8 |
    2021-12-23| PLFP| Fee payment|Year of fee payment: 9 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1363266A|FR3015629B1|2013-12-20|2013-12-20|RESERVOIR FOR STORING LIQUID OR GASEOUS MEDIA UNDER PRESSURE|FR1363266A| FR3015629B1|2013-12-20|2013-12-20|RESERVOIR FOR STORING LIQUID OR GASEOUS MEDIA UNDER PRESSURE|
    EP14198920.2A| EP2889527A3|2013-12-20|2014-12-18|Tank for storing liquid or gaseous media under pressure|
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