• 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:
    Cladding (1) of a turbocharger, which surrounds a housing of the turbocharger to be clad at least in sections. With a first cladding body (3) which, starting from a first side of the housing (2) to be clad, can be pushed onto the housing (2) in the axial direction, the first cladding body (3) having at least one axial cladding segment which is axially adjacent on the outside adjoins the housing on the first side, and has a plurality of radial casing segments (6, 7, 8) which adjoin the housing radially on the outside. With a second casing body which, starting from a second side of the casing (2) to be cased, can be pushed onto the casing (2) in the axial direction, the second casing body having at least one axial casing segment which is axially outwardly adjacent to the second side of the Housing adjoins, and at least one radial casing segment, which adjoins the housing radially on the outside, covers the first casing body (3) in sections radially on the outside and is connected to the first casing body (3). With several carriers (11), each carrier (11) having first sections (12) via which the respective carrier (11) can be mounted on the housing (2) to be encased, and wherein each carrier (11) has second sections, via which the first formwork body (3) is mounted on the respective carrier (11).
    公开号:CH716177A2
    申请号:CH00330/20
    申请日:2020-03-19
    公开日:2020-11-13
    发明作者:Braun Steffen;Albrecht Daniel;Denkel Harald;Weihard Stefan;Haas Bernd;Niebuhr Johannes;Spatz Urban
    申请人:Man Energy Solutions Se;
    IPC主号:
    专利说明:

    The invention relates to a casing of a turbocharger and a turbocharger.
    The basic structure of a turbocharger is known to the person skilled in the art addressed here. A turbocharger has a turbine in which a first medium is expanded. Furthermore, a turbocharger has a compressor in which a second medium is compressed using the energy obtained in the turbine when the first medium is expanded. The turbine of the turbocharger has a turbine housing and a turbine rotor. The compressor of the turbocharger has a compressor housing and a compressor rotor. A bearing housing is positioned between the turbine housing of the turbine and the compressor housing of the compressor, the bearing housing being connected on the one hand to the turbine housing and on the other hand to the compressor housing. A shaft via which the turbine rotor is coupled to the compressor rotor is mounted in the bearing housing.
    When a turbocharger is in operation, there is a risk that a rotor, such as the turbine rotor or the compressor rotor, of the turbocharger will break and fragments of the rotor will break through the corresponding housing, ie the turbine housing or the compressor housing. There is then the risk that the fragments of the turbocharger will get into the environment. In order to take account of this problem of the bursting of a rotor of the turbocharger, the respective housing in turbochargers known from practice is designed in such a way that damage to the respective housing is not to be expected and fragments of the respective rotor do not penetrate the respective housing even if the respective rotor breaks can. However, this increases the weight of the turbocharger.
    In order not to increase the weight of the turbocharger unnecessarily and also to protect turbochargers already used in the field from breaking through of fragments of a rotor in the environment, it is already known from practice to equip a turbocharger with a casing which surrounds a turbine housing and / or a compressor housing and / or a bearing housing of the turbocharger radially on the outside and axially on the outside at least in sections.
    Casings known from practice for turbochargers have axial casing segments which adjoin the casing to be cased axially on the outside on the axial sides of the casing to be cased. Furthermore, casings known from practice have at least one radial casing segment which adjoins the housing to be cased radially on the outside and extends between opposing axial casing segments.
    There is a need for a casing for a turbocharger which, on the one hand, has a simple structure and, moreover, can be easily mounted on the casing to be cased, but which also provides unrestricted burst protection.
    Based on this, the invention is based on the object of creating a new type of casing for a turbocharger and a turbocharger with such a casing. This object is achieved by a casing for a turbocharger according to claim 1.
    The casing of the turbocharger surrounds a casing to be covered, such as a turbine casing and / or a compressor casing and / or a bearing housing of the turbocharger, at least in sections.
    The casing has a first casing body which, starting from a first side of the casing to be casing, can be pushed in the axial direction onto the casing to be casing, the first casing body having at least one axial casing segment which is axially outwardly adjacent to the first side adjoins the housing to be clad, and has a plurality of radial cladding segments which adjoin the housing to be clad radially on the outside. The casing also has a second casing body which, starting from a second side of the casing to be cased, can be pushed onto the casing to be cased in the axial direction, the second casing body having at least one axial casing segment which is axially outwardly adjacent to the second side housing to be clad adjoins, and at least one radial cladding segment, which adjoins the housing to be clad radially on the outside, covers the first cladding body in sections radially on the outside and is connected to the first cladding body. The casing also has a plurality of supports, each support having first sections via which the respective support can be mounted on the housing to be cased, and each support having second sections via which the first casing body is mounted on the respective support.
    The formwork according to the invention comprises, as stated above, in addition to the first formwork body and the second formwork body, a plurality of carriers. The carriers can be mounted on the casing to be covered. The casing can be mounted on the casing to be cased via the carrier. The first formwork body can be mounted on the carrier and the second formwork body on the first formwork body. This not only provides a casing with a simple structure, which can be easily mounted on the casing to be cased, but rather also a casing which ensures unrestricted burst protection.
    Preferably, weld nuts are attached to the second sections of the carrier, via which the first casing body is mounted on the respective carrier. The first casing has at least three radial casing segments, namely a radially outer, structure-deepening casing segment, a radially inner, thermally insulating casing segment and at least one middle, structure-deepening casing segment sandwiched between the radially outer casing segment and the radially inner casing segment, with fastening screws penetrating the radial casing segments of the first casing body extend through into the weld nuts. This is advantageous for the simple and reliable connection of the first formwork body to the carriers. In addition to the burst protection provided by the radially outer casing segment and the or each central casing segment, good thermal insulation can also be provided, which is primarily provided by the radially inner casing segment.
    Preferably, further weld nuts are attached to an inside of the radially outer casing segment of the first casing body, via which the second casing body is mounted on the first casing body, these weld nuts engaging in recesses of an adjacent central casing segment. Further fastening screws extend through the or each radial formwork segment of the second formwork body into the weld nuts of the first formwork body. These details are used for the simple and reliable connection of the second casing to the first casing.
    Each carrier has a base body, the first sections being angled radially inwardly in relation to the base body at first edges extending in the circumferential direction, and the second sections being angled radially outwardly in relation to the base body at second edges extending in the axial direction are angled. In this way, on the one hand, the carriers can be optimally connected to the housing to be shuttered, and on the other hand, the first shuttering body can be optimally attached to the carriers.
    [0014] The turbo charger according to the invention is defined in claim 10.
    [0015] Preferred developments of the invention emerge from the subclaims and the following description. Embodiments of the invention are explained in more detail with reference to the drawing, without being restricted thereto. It shows:<tb> Fig. 1 <SEP> a perspective view of a casing according to the invention for a turbocharger together with a casing of the turbocharger to be covered,<tb> Fig. 2 <SEP> the arrangement of Fig. 1 with a dismantled assembly of the casing,<tb> Fig. 3 <SEP> the arrangement of FIG. 2 with the dismantled second formwork body of the formwork,<tb> Fig. 4 <SEP> the arrangement of FIG. 2 with the dismantled first and second casing bodies of the casing,<tb> Fig. 5 <SEP> a partial perspective view from the inside of the first casing body,<tb> Fig. 6 <SEP> a partial perspective view from the inside of the first casing body with the inner casing segment of the casing body partially dismantled,<tb> Fig. 7 <SEP> shows a partial axial section through the arrangement of FIG. 1,<tb> Fig. 8 <SEP> a further partial axial section through the arrangement of FIG. 1,<tb> Fig. 9 <SEP> shows a further partial axial section through the arrangement of FIG. 1.
    The invention relates to a casing for a turbocharger and a turbocharger with a casing.
    The basic structure of a turbocharger is familiar to the person skilled in the art addressed here. For example, a turbocharger comprises a turbine for expanding a first medium, in particular for expanding exhaust gas, and a compressor for compressing a second medium, in particular for compressing charge air, using the energy obtained in the turbine during expansion of the first medium.
    The turbine has a turbine rotor and a turbine housing. The compressor has a compressor rotor and a compressor housing. The turbine rotor and the compressor rotor are coupled via a shaft which is mounted in a bearing housing of the turbocharger, the bearing housing being connected both to the turbine housing and to the compressor housing.
    If, for example, the turbine rotor or the compressor rotor breaks during operation, fragments of the same can break through the respective housing, that is to say the turbine housing or the compressor housing, and get into the environment. This must be avoided, for which it is known to equip a turbocharger with a casing which surrounds the turbine housing and / or the compressor housing and / or the bearing housing of the turbocharger.
    In the area of the turbine housing and the compressor housing, a separate casing is preferably used, which surrounds the respective casing of the turbocharger to be cased radially on the outside and axially on the outside at least in sections.
    A casing is not only used to provide burst protection. Such a casing can also be used for thermal insulation and sound insulation.
    1 to 9 show different views and details of a casing 1 according to the invention together with a casing 2 of a turbocharger to be cased, the casing 2 shown in the figures being a turbine casing of a turbine of the turbocharger.
    The shuttering 1 has several shuttering bodies. A first cladding body 3 can be pushed onto the housing 2 to be clad in the axial direction, starting from a first side of the housing 2 to be clad. Furthermore, the casing 1 has a second casing body 4 which, starting from a second side of the casing 2 to be cased opposite the first side, can be pushed in the axial direction onto the casing 2 to be casing, namely in such a way that the second casing body 4 the first casing body 3 covered radially on the outside in sections (see in particular FIG. 2).
    The first formwork body 3 has at least one axial formwork body segment 5, which is axially outwardly adjacent to the first side of the housing 2 to be encased to the housing 2 to be encased. Furthermore, the first casing body 3 has a plurality of radial casing body segments 6, 7 and 8 which adjoin the housing 2 to be cased radially on the outside and run around in the circumferential direction. In the exemplary embodiment shown, the first casing body 3 has three radial casing body segments 6, 7 and 8, namely a radially outer, structure-stiffening casing body segment 6, a radially inner, thermally insulating casing body segment 7 and a sandwich-like between the radially outer casing body segment 6 and the radially inner casing body segment 7 arranged central, likewise structure-reinforcing casing segment 8. A plurality of central radial casing body segments 8 can also be present between the radially outer casing body segment 6 and the radially inner casing body segment 7.
    The second cladding body 4, which can be pushed axially from a side opposite the first side onto the housing 2 to be clad, has at least one axial cladding body segment 9, which is axially outwardly adjacent to the second side of the housing to be clad 2 connects. Furthermore, this second casing body 4 has at least one radial casing body segment 10, which adjoins the housing 2 to be cased radially on the outside and runs around in the circumferential direction.
    The second cladding body 4 covers radially outward sections of the first cladding body 3, in such a way that the radial casing segment 10 of the second casing body 4 covers the radially outer casing segment 6 of the first casing body 3 radially on the outside in sections (see in particular FIGS. 2 and 7 ).
    In addition to the first casing body 3 and the second casing body 4, the casing 1 has a plurality of supports 11. Each carrier 11 has first sections 12 via which the respective carrier 11 can be mounted on the housing 2 to be encased. Furthermore, each carrier 11 has second sections 13, via which the first casing body 3 can be mounted on the respective carrier 11.
    As can best be seen from FIG. 4, each of the supports 11 has a base body 14.
    The first sections 12, which are used to mount the respective carrier 11 on the housing 2 to be shuttered, are angled radially inwardly with respect to the base body 14 of the respective carrier 11, actually in the circumferential direction of the shuttering 1 or the to be shuttered Housing 2 extending edges of the base body 14.
    The second sections 13 of the respective carrier 11, on which the first cladding body 3 of the cladding 1 can be mounted, are angled radially outwardly relative to the base body 14 of the respective carrier 11, actually in the axial direction of the cladding 1 or the Housing 2 to be encased extending edges of the base body 14.
    On the second sections 13 of each carrier 11 weld nuts 15 are attached, namely to a side of the respective second section 13 of the respective carrier 11 facing the housing 2 to be covered. About these weld nuts 15, which are connected to the respective second section 13 of the respective carrier 11 are connected by welding, the first formwork body 3 of the formwork 1 can be connected to the carriers 11 in such a way that fastening screws 16 extend into the weld nuts from the radial outside through the radial formwork segments 6, 7 and 8 of the first formwork body 3 15 extend into it.
    Adjacent to the weld nuts 15, thermally insulating bodies 17 act on the second sections 13 of the carrier 11.
    In order to provide a particularly compact design of the shuttering 1, according to FIG. 6, the radially inner shuttering segment 7 of the first shuttering body 3 of the shuttering 1 has recesses 18 into which the second sections 13 of the carrier 11 are located in the assembled state of the shuttering 1 extend into it.
    Where the thermally insulating effect of the radially inner cladding segment 7 of the first cladding body 3 is interrupted by these recesses 18, the thermally insulating bodies 17, which attack the second sections 13 of the carrier 11, then isolate.
    In order to mount the second formwork body 4 on the first formwork body 3, further weld nuts 19 are attached by welding to an inside of the radially outer formwork segment 6 of the first formwork body 3, via which the second formwork body 4 is mounted on the first formwork body 3. Further fastening screws 20 extend through the or each radial casing segment 10 of the second casing body 4 into these further weld nuts 19 of the first casing body 3. These further fastening screws 20, which are used to assemble the second casing body 4 on the first casing body 3, therefore extend, like the fastening screws 16, which are used to install the first casing body 3 on the supports 11, from radially outside to radially inside.
    The fastening screws 16, which are used to mount the first casing 3 on the beams 11, extend through the radial casing segments 6, 7 and 8 of the first casing 3 into the weld nuts 15 that are attached to the sections 13 of the supports 11 are attached. The fastening screws 20, on the other hand, which are used to assemble the second casing body 4 on the first casing body 3, extend through the or each radial casing segment 10 of the second casing body 4 and through the radially outer casing segment 6 of the first casing body 3 into the weld nuts 19, which are attached to the first shuttering body 3.
    In order to ensure a compact design of the casing, as can be seen in FIG. 5, the weld nuts 19, which are fastened to the radially outer casing segment 6 of the first casing body 3 by welding, are in recesses 21 of the radially outer one Formwork segment 6 adjacent middle formwork segment 8 of the first formwork body 3 is positioned.
    As already stated, the first casing body 3 has at least one axial casing segment 5 and several radial casing segments 6, 7 and 8. In the embodiment shown, the first casing body 3 not only has several radial casing segments 6, 7 and 8, but also over several axial casing segments 5, namely at least one axially outer casing segment 5 with structure-reinforcing properties and at least one axially inner casing segment 5 with thermally insulating properties. The second casing body 4 has at least one axial casing segment 9 and at least one radial casing segment 11. The second casing body 4 preferably has two axial casing segments 9 and two radial casing segments 11, namely an outer casing segment with structure-stiffening properties and an inner casing segment thermal insulating properties.
    Both the axial cladding segments 5 and the radial cladding segments 6, 7 and 8 of the first cladding body 3 can be composed of several subsections or made in one piece. The same applies to the cladding segments 9, 10 of the second cladding body 4. These can be made in one piece or composed of several partial sections.
    At least the outer axial and outer radial cladding segments of each interconnection body 14 are designed together in one piece and merge into one another via a section extending at an angle to the same.
    Those cladding segments that have structure-deepening properties are preferably made of stainless steel. Those cladding segments that have thermally insulating properties are preferably made from a glass fiber material.
    As already stated, the carriers 11 are connected to the housing 2 to be encased at their first sections 13, which are angled radially inward with respect to the base body 14 of the respective carrier 11, namely via fastening screws 22 which extend in the axial direction through the second sections 12 of the respective carrier 11 extend through into the housing 2 to be covered.
    The cladding 1 also has a cover element 23. This cover element 23 covers in the area in which the second cladding body 4 partially covers the first cladding body 3 radially on the outside, the fastening screws 16, 20, on the one hand the first in this overlap area Formwork body 3 is connected to the carriers 11 and on the other hand the second formwork body 4 is connected to the first formwork body 3. Should the fastening screws 16, 20 fail during operation due to high forces, they are held back by the cover element 23 so that they cannot get into the environment and injure people in the vicinity. The cover element 23 is connected, preferably screwed, to the second casing body 4 of the casing 1.
    The plurality of carriers 11 are distributed over the circumference of the first casing body 3 of the casing 1 or over the circumference of the housing 2 to be cased.
    The invention further relates to a turbocharger with a casing 1 according to the invention. The casing 1 is used in a turbocharger according to the invention to surround the turbine housing or the compressor housing and possibly sections of a bearing housing positioned between the turbine housing and the compressor housing radially on the outside and axially on the outside at least in sections and to board with it.
    The casing 1 naturally has recesses for shafts to pass through, as well as connecting flanges of the housing 2 to be cased.
    List of reference symbols
    1 casing 2 housing 3 first casing body 4 second casing body 5 axial casing segment 6 radial casing segment 7 radial casing segment 8 radial casing segment 9 axial casing segment 10 radial casing segment 11 carrier 12 first section 13 second section 14 base body 15 welding nut 16 fastening screw 17 body 18 recess 19 Weld nut 20 fastening screw 21 recess 22 fastening screw 23 cover
    权利要求:
    Claims (10)
    [1]
    1. Cladding (1) of a turbocharger, which surrounds a housing to be clad such as a turbine housing and / or a compressor housing and / or a bearing housing of the turbocharger at least in sections,with a first casing body (3) which, starting from a first side of the casing (2) to be cased, can be pushed onto the casing (2) to be casing in the axial direction, the first casing body (6) having at least one axial casing segment (5), which adjoins the housing to be clad axially on the outside and adjoins the first side, and has a plurality of radial cladding segments (6, 7, 8) which adjoin the housing to be clad radially on the outside,with a second casing body (4) which, starting from a second side of the casing (2) to be cased, can be pushed onto the casing (2) to be casing in the axial direction, the second casing body (4) at least one axial casing segment (9), which is axially outwardly adjacent to the second side of the housing to be clad, and at least one radial cladding segment (10), which adjoins the housing to be clad radially on the outside, covers the first cladding body (3) radially on the outside in sections and with the first Formwork body (3) is connected, has,with a plurality of carriers (11), each carrier (11) having first sections (12) via which the respective carrier (11) can be mounted on the housing (2) to be shuttered, and wherein each carrier (11) has second sections (13 ), via which the first formwork body (3) is mounted on the respective carrier (11).
    [2]
    2. Shuttering according to claim 1, characterized in that weld nuts (15) are fastened to the second sections (13) of the carrier, via which the first shuttering body (3) is mounted on the respective carrier (11).
    [3]
    3. Formwork according to claim 2, characterized in that the first formwork body (3) has at least three radial formwork segments, namely a radially outer, structure-deepening formwork segment (6), a radially inner, thermally insulating formwork segment (7) and at least one sandwich-like between the radially outer cladding segment (6) and the radially inner cladding segment (7) arranged, middle, structure-deepening cladding segment (8), with fastening screws (16) passing through the radial cladding segments (6, 7, 8) of the first cladding body (3) into the weld nuts (15) extend into it.
    [4]
    4. Shuttering according to claim 2 or 3, characterized in that on the second sections (13) of the carriers (11) which engage in recesses (18) of the radially inner shuttering segment (7), thermally insulating bodies adjacent to the weld nuts (15) (17) are attached.
    [5]
    5. Shuttering according to claim 3 or 4, characterized in that weld nuts (19) are fastened on an inner side of the radially outer shuttering segment (6) of the first shuttering body (3), via which the second shuttering body (4) is mounted on the first shuttering body (3) is, these weld nuts (19) engage in recesses (21) of an adjoining central formwork segment (8).
    [6]
    6. Formwork according to claim 5, characterized in that fastening screws (20) extend through the or each radial formwork segment (10) of the second formwork body (4) into the weld nuts (19) of the first formwork body (3).
    [7]
    7. Formwork according to claim 6, characterized by a cover element (23) for the fastening screws (16, 20).
    [8]
    8. Shuttering according to one of Claims 1 to 7, characterized in that each carrier (11) has a base body (14), the first sections (11) facing the base body (14) radially inward at first edges extending in the circumferential direction are angled, and wherein the second sections (13) are angled radially outward with respect to the base body (14) at second edges extending in the axial direction.
    [9]
    A shuttering according to any one of Claims 1 to 8, characterized in that the plurality of supports (11) are distributed over the periphery of the first shuttering body (3).
    [10]
    10. turbocharger,with a turbine for the expansion of a first medium,with a compressor for compressing a second medium using the energy gained in the turbine when the first medium is expanded,wherein a turbine housing of the turbine and a compressor housing of the compressor are each connected to a bearing housing arranged between them,marked bya casing (1) according to one of claims 1 to 9 which surrounds the turbine casing and / or the compressor casing and / or the bearing casing radially on the outside and axially on the outside at least in sections.
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    同族专利:
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    RU2020112882A|2021-10-05|
    US20200355093A1|2020-11-12|
    CN111911247A|2020-11-10|
    DE102019111899A1|2020-11-12|
    KR20200130128A|2020-11-18|
    JP2020183757A|2020-11-12|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US8500398B1|2008-10-09|2013-08-06|Walker Design, Inc.|Turbocharger heat shield|
    DE102017122230A1|2017-09-26|2019-03-28|Man Diesel & Turbo Se|turbocharger|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    DE102019111899.9A|DE102019111899A1|2019-05-08|2019-05-08|Casing of a turbocharger and turbocharger|
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