• 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:
    Heat exchanger for gases, especially the exhaust gases of an engine, and gas conduction unit unit with particulate filter. The exchanger comprises: - a heat exchanger block intended for the circulation of gases with heat exchange with a cooling fluid; - a gas conduction unit fixed to one end of said heat exchanger block, so that it is fluidly communicated therewith for the passage of gases therethrough; y An interchangeable particulate filter (3) removably mounted in the gas conduit unit or in the heat exchanger block. The assembly comprises a gas conduction unit with an interchangeable particulate filter (3) mounted removably therein. (Machine-translation by Google Translate, not legally binding)
    公开号:ES2618827A2
    申请号:ES201531860
    申请日:2015-12-21
    公开日:2017-06-22
    发明作者:Jesús JIMÉNEZ PALACIOS;Jose Antonio De La Fuente Romero;Francisco Javier IGUAZ PIEDRAFITA;José ESCÓS GARCÍA
    申请人:Valeo Termico SA;
    IPC主号:
    专利说明:

    HEAT EXCHANGER FOR GASES, ESPECIALLY OF EXHAUST GASES OF AN ENGINE, AND SET OF GAS DRIVING UNIT WITH 5 PARTICLE FILTER
    Technical sector
    The present invention generally concerns, in a first aspect, an exchanger of
    10 heat for gases, especially the exhaust gases of an engine, comprising a particle filter, and more particularly to an exchanger whose particle filter is interchangeable.
    A second aspect of the present invention concerns a gas conduction unit assembly with a particulate filter, especially for engine exhaust, and more particularly an assembly where the particulate filter is interchangeable.
    The invention is especially applied in exhaust recirculation exchangers of an engine ("Exhaust Gas Recirculation Coolers" or EGRC ».
    Prior art
    The main function of the EGR exchangers is the exchange of heat between 105 exhaust gases and the cooling fluid, in order to cool the gases.
    25 Currently, EGR heat exchangers are widely used for diesel applications to reduce emissions, and are also used in gasoline applications to reduce fuel consumption.
    30 The market tends to reduce the size of engines, and to the application of EGR heat exchangers not only in high pressure (HP) applications but also in low pressure (LP) applications; both have an impact on the design of EGR heat exchangers. Vehicle manufacturers demand EGR heat exchangers with higher yields and, at the same time, the space available to place the exchanger and its
    35 components is getting smaller and harder to integrate.
    Additionally, in many applications the flow of refrigerant fluid available to cool the exhaust gases tends to be lower even though the exchanger yields have been increasing.
    5 The current configuration of EGR exchangers in the market corresponds to aMetal heat exchanger usually made of stainless steel or aluminum.
    Basically, there are two types of EGR heat exchangers: a first type consists of a housing in whose interior there is a parallel tube beam for the passage of gases,
    10 circulating the refrigerant through the housing, externally to the tubes, and the second type consists of a series of parallel plates that constitute the heat exchange surfaces, so that the exhaust gases and the refrigerant circulate between two plates, in layers alternated, and may include fins to improve heat exchange.
    15 In the case of tube beam heat exchangers, the connection between the tubes and the housing can be of different types. Generally, the tubes are fixed at their ends between two support plates coupled at each end of the housing, both support plates having a plurality of holes for the placement of the respective tubes.
    20 Said support plates are in turn fixed to means of connection with the recirculation line, which may consist of a V-connection or a peripheral connection flange or flange, depending on the design of the recirculation line where it is Assembled the exchanger. The peripheral flange may be assembled together with a gas tank, so that the gas tank is an intermediate piece between the housing and the flange, or
    25 either the flange may be assembled directly to the housing.
    In some EGR exchangers, mainly in low pressure (LP) applications, the cleaning requirements are demanding, so the use of a particulate filter (not a soot filter) integrated in the exhaust line is increasingly in demand. Said filter usually
    30 is constituted by an independent component or, in some cases, by a component integrated with the EGR exchanger.
    The following patent documents propose heat exchangers with particle filters fixed or integrated in different parts of the exchanger.
    EP2273095B1 refers to a heat exchanger that includes a fluid filter integrated in said exchanger, which includes a filter area that protrudes from a flat surface. This filter is configured as a gasket and is assembled between the connection flange and the gas tank by means of hardware.
    Patent EP2194351B1 refers to a heat exchanger that includes a particulate filter for filtering the exhaust gases, structurally integrated within the gas inlet tube of the heat exchanger.
    The patent FR2938051 B 1 refers to a heat exchanger that includes a filter housed in a chosen position so that the filter is arranged next to an end side of the tube bundle.
    Patent ES2421185B1, of the same holder as the present application, describes a
    A heat exchanger comprising a gas tank provided with an inlet port attachable to one end of the housing and an outlet port connected to the gas recirculation line, and a particulate filter attached to the inlet port of the gas tank. gas preferably by arc or spot welding, and additionally, optionally, by oven welding.
    20 The Spanish application with publication number 2531124, also of the same owner as the present application, proposes a heat exchanger with a particulate filter for filtering the exhaust gases associated with the outlet orifice of the gas tank, and a gasket of sealing arranged on an outer surface of the flange or connection flange, where
    25 The filter is connected between the gas tank and the connection flange or flange by means of furnace welding, thus being integrated with the gas tank forming a single inseparable part capable of being coupled to the exchanger housing.
    In all existing and known designs, if the filter needs to be replaced,
    30 due to a complete obstruction thereof, it would be necessary to replace the entire EGR exchanger.
    It appears, therefore, necessary to offer an alternative to the state of the art that covers the gaps found therein, providing a solution that avoids the aforementioned
    35 complete replacement of the EGR exchanger when the filter becomes clogged.
    P201 531860
    Explanation of the invention.
    To this end, the present invention concerns, in a first aspect, a heat exchanger for gases, especially for exhaust gases of an engine, comprising, in a manner known per se:
    - a heat exchanger block intended for the circulation of gases with heat exchange with a cooling fluid;
    - a gas conduction unit fixed to one end of said heat exchanger block, so that it is fluidly communicated with it for the passage of the gases therethrough; Y
    - a particle filter disposed between the inlet and outlet of the exchanger gases, so that the gases pass through it.
    Unlike the heat exchangers known in the state of the art, in that proposed by the first aspect of the present invention, in a characteristic way, the particulate filter is interchangeable, being removably mounted in the gas conduction unit or in the heat exchanger block, depending on the exemplary embodiment.
    According to an exemplary embodiment, the heat exchanger block comprises a housing that houses a bundle of tubes for the circulation of gases with heat exchange with said refrigerant fluid, which circulates inside the housing externally to the tubes
    For an alternative embodiment, the heat exchanger block comprises a housing that houses in its interior a plurality of stacked plates between which the gases and the cooling fluid circulate between two independent circuits defined by said plates, in alternating layers.
    The gas conduction unit comprises, according to an embodiment, at least one connection flange connectable with a gas recirculation line, and, in general, also a gas tank with a first portion, which includes a first opening, connected to one end of said heat exchanger block or said housing and a second portion, which includes a second opening, connected to the connection flange.
    According to an exemplary embodiment, the particle filter is removably mounted on said connection flange and arranged so that it filters the gases that pass through it and through a through opening of the connection flange.
    5 For another embodiment, the particle filter is removably mounted onthe gas tank, in particular, for a variant of said exemplary embodiment, in thecited second portion of the gas tank.
    In general, the embodiments described above are alternative, although it is also possible, for another embodiment, to be complementary, that is to say that two removable filters are arranged, one in the connection flange and the other in the storage tank. gas.
    Advantageously, the heat exchanger of the first aspect of the present invention comprises at least one sealing gasket for mounting the particle filter in the gas conduction unit, or in the heat exchanger block, in a sealed manner against the gases
    The particle filter comprises a filtering element and, attached thereto, a removable structural member fixed in a filter holder defined or fixed in the flange of
    20 connection or in the gas tank or in the heat exchanger block, depending on the embodiment.
    According to a preferred embodiment, said structural member is a perimeter frame (for example metallic) attached to the contour of the filtering element and said
    The filter support comprises at least one non-through groove in which at least part of said perimeter frame fits in a guided manner.
    Other embodiments are contemplated for which the structural member is not a perimeter frame but another kind of structural member and / or for which the filter holder
    30 does not comprise a groove but another kind of complementary structural configuration of at least part of the structural member.
    For an exemplary embodiment, said seal is a perimeter seal coupled to the perimeter frame contour, at least part of which is trapped under
    35 pressure between the perimeter frame and said non-through groove, that is to say against the walls that delimit the groove, thus preventing the escape of gases.
    The coupling of the perimeter joint to the contour of the perimeter frame can be carried out by any known method, such as the arrangement of a perimeter recess at the edge of the frame and the introduction and fitting therein of a portion of the joint.
    5According to an exemplary embodiment, the structural member and the filter holder, or the flange ofconnection or gas tank, comprise respective coupling meanscomplementary adapted to be released in a releasable way to mount soremovable to the particle filter with respect to the filter holder, or the connection flange or the
    10 gas tank.
    For an implementation of said embodiment, said complementary coupling means comprise at least one recess and an appendix configured and arranged so that a portion of the appendix fits, by elastic deformation, into the recess,
    15 the recess being defined in the filter holder, or in the connection flange or in the gas tank, and the appendix in a region of the structural member, or vice versa.
    According to a variant of said implementation, the aforementioned appendix extends and protrudes with respect to one of the four sides of the perimeter frame.
    20 In addition to the implementation explained above, other implementations of the said complementary coupling means are also possible, including coupling configurations that automatically fit each other when the perimeter frame of the filter is introduced into the non-through groove, either by elastic deformation or By other means
    25 automatic, or coupling configurations that require the intervention of a user to perform the coupling operation (screwed, etc.).
    As regards the exemplary embodiment for which the particulate filter is removably mounted on the heat exchanger block, there are several variants or
    30 implementations thereof, such as that associated with the mounting of the filter in a filter holder defined or fixed in one of the support plates coupled at each end of the exchanger housing, or in the exchanger housing itself so as not to block the passage of refrigerant inside the housing,
    35 The particle filter is configured to block the passage of particles of a size larger than that of the soot particles.
    Being interchangeable, the filter can be replaced by another after a certain number of kilometers, traveled by the vehicle in which it is installed.
    The present invention also concerns, in a second aspect, a unit assemblyof conduction of gases with particle filter, for heat exchanger for gases, inspecial for exhaust gases of an engine, where the gas conduction unitadapted to be fixed to one end of a heat exchanger block so thatit is fluidly communicated with it for the passage of gases through it, and the filter
    10 of particles is coupled to the gas conduction unit for filtering the exhaust gases that pass through it.
    Unlike the known assemblies, in the one proposed by the second aspect of the present invention, the particle filter is interchangeable, being removably mounted in the gas conduction unit.
    For an exemplary embodiment, the gas conduction unit comprises at least one connection flange connectable to a gas recirculation line, where the particle filter is removably mounted on said connection flange and disposed of
    20 way that filters the gases that pass through it and through a through opening of the connection flange.
    For another exemplary embodiment, the gas conduction unit comprises a gas tank, the particle filter being removably mounted in the gas tank.
    All the embodiments described above for the first aspect of the invention, when they are relative to the inclusion of the particulate filter in the gas conduction unit, are valid as for the second aspect of the invention.
    Brief description of the drawings
    The foregoing and other advantages and features will be more fully understood from the following detailed description of some embodiments with reference to the attached drawings, which should be taken by way of illustration and not limitation, in which:
    Figure 1 is a front perspective view showing the particulate filter in a situation prior to its assembly in a connection flange of a connection unit, for an example of embodiment valid for both the first aspect exchanger and the assembly of the second aspect;
    Figure 2 is a rear perspective view showing the same elements as Figure 1, but in a situation where the filter has been partially mounted on the connection flange;
    Figure 3 is a front perspective view analogous to that of Figure 1, for the same exemplary embodiment, but in a situation where the particle filter has already been completely mounted on the connection flange;
    Figure 4 illustrates, by a front perspective view showing the particulate filter
    15 in a situation prior to its assembly in a gas tank of a connection unit, for another exemplary embodiment valid both for the exchanger of the first aspect and for the whole of the second aspect;
    Figure 5 illustrates, by a front perspective view, the same embodiment
    20 of Figure 4 but in a situation where the particulate filter has already been completely mounted in the gas tank; Y
    Figure 6 illustrates by a perspective view from the back, the same embodiment of Figure 5, also with the filter already mounted in the gas tank.
    Detailed description of some embodiments
    In Figures 1, 2 and 3 an example of embodiment of the exchanger and of the assembly proposed by the present invention has been represented in different assembly situations, for
    30 that the particulate filter 3 is removably mounted on a connection flange 4 of a gas conduction unit attachable to one end of a heat exchanger block (not shown) of the exchanger, so that it is fluidly communicated with the same for the passage of gases through it,
    An alternative embodiment is illustrated in Figures 4 to 6, where the particulate filter 3 is removably mounted in a gas tank 5 of the conduction unit, in particular in a second portion 5b thereof which includes a second opening 02, to be connected to a connection flange, the gas tank 5 also being provided with a first portion 5a, which includes a first opening 01, connectable to a heat exchanger block end (not shown) or of the housing (not shown) of the exchanger.
    For both exemplary embodiments, the particle filter 3 comprises a filtering element 6 and, attached thereto, a structural member 7 removably fixed on a filter holder 8 defined in the connection flange 4 or in the reservoir of gas 5.
    In particular, said structural member 7 is, for the illustrated examples, a perimeter frame 7 attached to the contour of the filtering element 6, and comprising an appendix A which extends and protrudes with respect to one 7a of its four sides 7a , 7b, 7c, 7d, and whose function will be described later.
    The perimeter frame is configured to be removably fixed on a filter holder 8 defined or fixed in the connection flange 4 or in the gas tank 5, depending on the exemplary embodiment.
    As can be seen in the attached Figures, a continuous perimeter joint of
    20 tightness 9 coupled to the contour of the perimeter frame7, whose purpose is to prevent the escape of gases once the filter 3 is mounted.
    For the exemplary embodiment illustrated in Figures 1 to 3, the filter holder 8 is a structure formed by adjacent walls of L-shaped cross-section that are
    25 project from three respective perimeter edges of a face of the connection flange 4.
    The three adjacent walls are joined, without continuity solution, describing a U-shape, a non-through groove 8a being defined between the respective sections of the walls whose cross sections make up the respective bases of the L of the cross-shaped sections 30 in the form of L, and opposite regions of said face of the connection flange
    Four.
    For the introduction / removal of the particulate filter 3 with respect to the connection flange 4, the edge of the sides 7b, 7d of the perimeter frame 7, together with the side segments of the perimeter joint 9 coupled thereto, slides from guided by the vertical sections (according to the position illustrated) of the non-through slot Ba, entering / exiting them through
    P201 531860
    its upper open access (according to the position illustrated in the figures), until the edge of the side 7c, together with the lower segment of the perimeter joint 9 coupled thereto, is introduced into the lower section of the groove 8a until it abuts the bottom of it.
    In this way, the lateral and lower segments of the perimeter joint 9 are trapped under pressure between the perimeter frame 7 and the non-through slot Ba preventing the outflow of gases to the outside.
    Figure 1 illustrates the position prior to the introduction of the perimeter frame7 in the slot Ba (or the situation after its removal), in Figure 2 an intermediate mounting position and in Figure 3 a situation in which the perimeter frame 7 has already been completely inserted in the slot 8a.
    In order for the particle filter 3 to be coupled to the filter holder 8, respective complementary coupling means are arranged adapted to be releasably coupled to removably mount the particle filter 3 with respect to the filter holder 8, which comprise a recess R defined in a projection 4r of the upper side (according to the position illustrated) of the connection flange 4 and the aforementioned appendix A, which comprises an end portion A 1 configured and arranged to fit, by deformation elastic, in the recess R when the perimeter frame 7 is fully inserted in the non-through slot Ba.
    For the illustrated example, the portion A1 defines on its lower surface (according to the position illustrated) a ramp that, during sliding of the frame 7 through the non-passing slot Ba, contacts an upper edge of the projection 4r sliding against it so that the appendix A is pushed by it, by elastic deformation, in a direction opposite to the position of the recess R until the tip of the portion A 1 faces the recess R, entering it when elastically recovering the appendix A of said deformation . In this position, the upper segment of the perimeter joint 9 is pressed firmly against the connection flange 4, so that the entire joint 9 prevents the outflow of gases to the outside.
    For the exemplary embodiment illustrated in Figures 4 to 6, the filter holder 8 is defined by an intermediate structure of the gas tank 5 arranged behind the first portion 5a thereof, and including a rear portion Bt in the form of a surrounding frame to the first opening 01 and a front portion 8f that takes the form of a perimeter flange, the non-passing slot Ba being defined by the space between said portions Bt, 8f. In addition, a through slot Be for the passage of the particulate filter 3 is defined in an upper wall (according to the position illustrated) of the intermediate structure 8, so that it can be introduced / removed with respect to the gas tank 5.
    The operation of introducing / removing the particulate filter 3 with respect to the gas tank 5 is analogous to that described for the embodiment example of Figures 1 to 3, with the difference that the perimeter frame 7 must be inserted into the slot not through Ba through the through slot Be, sliding the edge of the sides 7b, 7d in a guided manner
    10 perimeter frame 7, together with the side segments of the perimeter joint 9 coupled thereto, by the vertical sections (according to the position illustrated) of the non-through slot Ba, until the edge of the side 7c, together with the lower segment of the perimetral joint 9 coupled thereto, is inserted into the lower section of the slot Ba until it abuts the bottom of it.
    15 In the same way as in the example of Figures 1 to 3, for the embodiment illustrated by Figures 4 to 6 there are also respective complementary coupling means adapted to be releasably coupled to removably mount the particle filter 3 with respect to the filter holder B, which comprise a
    20 recess R defined in a projection Sr of the upper side (according to the position illustrated) of the gas tank S and the above-mentioned appendix A. The operation of these complementary coupling means is equal to that already described above in relation to Figures 1 to 3.
    A person skilled in the art could introduce changes and modifications in the described embodiments without departing from the scope of the invention as defined in the appended claims.
    权利要求:
    Claims (18)
    [1]
    1.-heat exchanger for gases, especially for exhaust gases of an engine, comprising: -a heat exchanger block intended for the circulation of gases with heat exchange with a cooling fluid;
    - a gas conduction unit fixed to one end of said heat exchanger block, so that it is fluidly communicated with it for the passage of the gases therethrough; Y
    - a particle filter (3) disposed between the inlet and outlet of the exchanger gases, so that the gases pass through it,
    characterized in that said particle filter (3) is interchangeable, being removably mounted in said gas conduction unit or said heat exchanger block.
    [2]
    2.-Exchanger according to claim 1, wherein said heat exchanger block comprises a housing that houses inside a bundle of tubes intended for the circulation of gases with heat exchange with said cooling fluid, which circulates through the inside the housing externally to the tubes.
    [3]
    3.-Exchanger according to claim 1, wherein said heat exchanger block comprises a housing that houses a plurality of stacked plates inside which the gases and the cooling fluid circulate between two independent circuits defined by said plates, in alternating layers.
    [4]
    4. - Exchanger according to claim 1, 2 or 3, wherein said gas conduction unit comprises at least one connection flange (4) connectable with a gas recirculation line.
    [5]
    5. Exchanger according to claim 4, wherein said gas conduction unit further comprises a gas tank (5) with a first portion (5a), which includes a first opening (01), connected to one end of said heat exchanger block or said housing and a second portion (5b), which includes a second opening (0 2), connected to said connection flange (4).
    [6]
    6.-Exchanger according to claim 4 or 5, wherein said particle filter (3) is removably mounted on said connection flange (4) and arranged so as to filter the gases passing through it and through a through opening (4a) of the connection flange (4).
    [7]
    7. Exchanger according to claim 5, wherein said particle filter (3) is removably mounted on said gas tank (5).
    [8]
    8.-Exchanger according to claim 7, wherein said particle filter (3) is removably mounted on said second portion (Sb) of the gas tank (5).
    [9]
    9.-Exchanger according to any one of the preceding claims, wherein it comprises at least one sealing gasket for mounting said particle filter (3) in the gas conduction unit or in the heat exchanger block, so Watertight against gases.
    [10]
    10. The exchanger according to claim 9 when it depends on any one of claims 6 to 8, wherein said particle filter (3) comprises a filtering element (6) Y. attached thereto. a fixed structural member (7). in a removable way. in a filter holder (8) defined or fixed in said connection flange (4) or in said gas tank (5).
    [11]
    11.-Exchanger according to claim 10, wherein said structural member (7) is a perimeter frame attached to the contour of the filter element (6) and said filter support (8) comprises at least one non-through slot (8a) in which guided at least part of said perimeter frame (7) fits.
    [12]
    12. The exchanger according to claim 11, wherein said seal is a perimeter seal (9) coupled to the contour of said perimeter frame (7), at least part of which is trapped under pressure between the perimeter frame (7 ) and said non-through slot (8a), which is at least one, preventing the escape of gases.
    [13]
    13.-Exchanger according to any one of claims 10 to 12, wherein said structural member (7) and said filter support (8), or said connection flange (4)
    or said gas tank (5), comprising respective complementary coupling means adapted to be released in a free manner to removably mount the particle filter (3) with respect to the filter holder (8), or to the flange of
    P201 531860
    connection or gas tank.
    [14]
    14.-The exchanger according to claim 13, wherein said complementary coupling means comprise at least one recess (R) and at least one appendix (A)
    5 configured and arranged for a portion (A 1) of the appendix (A) to fit, byelastic deformation, in said recess (R), the recess (R) being defined in the supportfilter (8), or in the connection flange (4) or in the gas tank (5), and the appendix (A)in a region of the structural member (7), or vice versa.
    10 1S.-exchanger according to claim 14 when it depends on 11 or 12, wherein said appendix (A) extends and protrudes with respect to one (7a) of the four sides (7a, 7b, 7c, 7d) of said perimeter frame (7).
    [16]
    16. The exchanger according to any one of the preceding claims, wherein the particle filter (3) is configured to block the passage of particles of a size larger than that of the soot particles.
    [17]
    17.-Gas conduction unit assembly with particulate filter (3), for gas heat exchanger, especially for engine exhaust,
    20 the gas conduction unit being adapted to be fixed to one end of a heat exchanger block so that it is fluidly communicated with it for the passage of the gases therethrough, and the particle filter (3) coupled to the gas conduction unit for filtering the exhaust gases passing through it, characterized in that said particle filter (3) is interchangeable, being
    25 removably mounted on said gas conduction unit.
    [18]
    18. Assembly according to claim 17, wherein said gas conduction unit comprises at least one connection flange (4) with a gas recirculation line, wherein said particle filter (3) is removably mounted on said flange of
    30 connection (4) and arranged so that it filters the gases that pass through it and through a through opening (4a) of the connection flange (4).
    [19]
    19. Assembly according to claim 17, wherein said gas conduction unit comprises a gas tank (5), said particle filter (3) being removably mounted in said gas tank (5).
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    同族专利:
    公开号 | 公开日
    EP3394556A1|2018-10-31|
    KR20180096714A|2018-08-29|
    WO2017108614A1|2017-06-29|
    ES2618827R1|2017-09-05|
    EP3394556B1|2021-01-13|
    ES2618827B1|2018-06-19|
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    FR2444580B1|1978-12-22|1983-07-22|Ferodo Sa|
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    ES2421185B1|2012-02-22|2014-08-11|Valeo Térmico, S. A.|HEAT EXCHANGER FOR GASES, ESPECIALLY OF EXHAUST GASES OF AN ENGINE|EP3868457A1|2020-02-18|2021-08-25|Mahle International GmbH|Filter arrangement|
    法律状态:
    2018-06-19| FG2A| Definitive protection|Ref document number: 2618827 Country of ref document: ES Kind code of ref document: B1 Effective date: 20180619 |
    优先权:
    申请号 | 申请日 | 专利标题
    ES201531860A|ES2618827B1|2015-12-21|2015-12-21|HEAT EXCHANGER FOR GASES, ESPECIALLY OF EXHAUST GASES OF AN ENGINE, AND SET OF GAS DRIVING UNIT WITH PARTICLE FILTER|ES201531860A| ES2618827B1|2015-12-21|2015-12-21|HEAT EXCHANGER FOR GASES, ESPECIALLY OF EXHAUST GASES OF AN ENGINE, AND SET OF GAS DRIVING UNIT WITH PARTICLE FILTER|
    EP16822942.5A| EP3394556B1|2015-12-21|2016-12-16|Particular heat exchanger for gas, in particular for exhaust gas of an engine, and gas conduit unit with particle filter|
    KR1020187020691A| KR20180096714A|2015-12-21|2016-12-16|Particularly a gas heat exchanger for engine exhaust gas, and a gas pipe unit assembly|
    PCT/EP2016/081453| WO2017108614A1|2015-12-21|2016-12-16|Gas heat exchanger, in particular for engine exhaust gases, and gas pipe unit assembly with particle filter|
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