• 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:
    Method for producing a rail vehicle large component (1) from light metal hollow sections (2), wherein light metal hollow sections (2) are joined together in a specific sequence by means of a welding process and at least parts of a cover layer (3) of the light metal hollow sections (2) are removed ,
    公开号:AT520978A1
    申请号:T50157/2018
    申请日:2018-02-21
    公开日:2019-09-15
    发明作者:Nedelik Robert;Markus Seitzberger Dr;Karl Ruthmeier Andreas
    申请人:Siemens Ag Oesterreich;
    IPC主号:
    专利说明:

    Summary
    Method for producing a large rail vehicle component (1) from light metal hollow profiles (2), wherein light metal hollow profiles (2) are connected to one another in a specific row by means of a welding process and at least parts of a cover layer (3) of the light metal hollow profiles (2) are removed.
    Sig. Fig. 3/26
    201801710
    description
    Process for producing a large rail vehicle component from light metal hollow profiles.
    Technical field
    The invention relates to a method for producing a large rail vehicle component from light metal hollow profiles and a light metal hollow profile.
    State of the art
    The car body of a passenger rail vehicle can be produced by means of what is known as an integral construction, in which metal profiles are connected to form large components and these in turn form a car body. The large components typically represent a side wall, an underframe, a roof or an end wall, a welding process usually being used to connect the metal profiles to one another and to connect the large components. This design allows a high degree of automation in production and, when using light metal profiles, also a relatively low body weight. The metal profiles themselves are usually designed as closed hollow profiles and can have additional features such as fastening strips or weld pool locks for further production. Due to certain metallurgical relationships, these weld seams have a lower strength than the light metal profiles to be connected, which makes it expedient to arrange these weld seams in zones with low loads. On locally increased strength requirements of / 26
    201801710
    Car bodies, for example next to door or window openings, can only be received to a small extent, since the metal profiles always have the same cross section along their longitudinal extent. In this way, an integral body car body often has a larger mass than would be required to meet the strength requirements. A possible solution to this problem can be found by manufacturing a light-weight body in a differential construction. This type of construction is common in steel car bodies, in which the large components are made up of a lattice frame of frames and stringers that is clad with sheet metal. The outer sheet is usually joined to the frame structure by means of spot welds or fillet welds. An integral steel construction that would mean less manufacturing effort is not technologically feasible. In the case of aluminum car bodies, a conventional differential design requires a large number of weld seams, which are often also not capable of being automated and thus result in high production costs. Therefore, in addition to the weakening of the material by welding, this design is avoided with light metal.
    Presentation of the invention
    The invention is therefore based on the object of specifying a method for producing a large rail vehicle component from light metal hollow profiles, which makes it possible to meet specific strength requirements at specific positions of the large component and at the same time minimize the weight of the large component at a high / 26
    201801710
    Achieve degree of automation and associated low manufacturing costs.
    The object is achieved by a method having the features of claim 1 and a light metal hollow profile according to claim 8. Advantageous refinements are the subject of subordinate claims.
    According to the basic idea of the invention, a method for producing a large rail vehicle component from light metal hollow profiles is described, which has the following method steps:
    - arranging the light metal hollow profiles in a certain sequence,
    - Joining the light metal hollow profiles with the adjacent light metal hollow profiles by means of a welding process
    - At least partial removal of a top layer of the light metal hollow profiles.
    As a result, the advantage can be achieved of being able to construct a large rail vehicle component which, on the one hand, can be automated and inexpensively manufactured, and, on the other hand, can be implemented as flexibly as local strength requirements as by means of a differential design.
    According to the invention, typically several, light metal hollow profiles are connected to one another and then parts of a cover layer of the assembled light metal hollow profiles are removed. In this way, weight / 26 can be used in positions where there are no increased strength requirements (for example, at a sufficient distance from window cutouts)
    201801710 can be saved without significantly reducing the required strength of the large component.
    The area to be removed from the top layer is determined by the strength requirements for the large component or the body. In order to achieve a relevant weight saving, a large part of the cover layer has to be removed, it being advantageous to remove at least 50% of the area of the inner cover layer of a large component.
    It is particularly advantageous to join the light metal hollow profiles to one another by means of an automated welding process and then to partially remove the cover layer of the composite light metal hollow profiles by means of an equally automated milling process. This is particularly advantageous, since conventional machining of a large rail vehicle component in an integral design requires machining (e.g. for the production of window and door cutouts). The removal of the cover layer can simply be provided as a further work step and no further transport or setup work is required.
    It is particularly advantageous to at least partially remove the cover layer of the composite light metal hollow profiles on the side which, when the large component is installed, forms the inside of the rail vehicle.
    The webs remaining after the cover layer has been removed form stiffening ribs in the large component, / 26
    201801710, on the other hand, they can be used to fasten interior components such as wall cladding, etc.
    In a further development of the invention, these webs below the removed areas of the cover layer can also be completely removed if their stiffening properties are not required at the point in question.
    A particularly advantageous embodiment of the invention provides that sections of the underlying webs also remain below the removed areas of the cover layer, i.e. these ridges cannot be removed completely. The advantage of achieving a reduction in the component mass without a significant reduction in the dimensional stability can be achieved in this way. Already short remaining sections of the webs result in a large stiffening of the outer wall, in particular a significantly increased buckling rigidity.
    A particularly advantageous embodiment of the invention provides for the use of light metal hollow profiles which are optimized for the partial removal of the webs, the remaining sections of the webs being designed to increase the rigidity.
    The hollow profile can be made closed with two cover layers, the cover layers being connected to one another by webs and the webs having a first section which is arranged perpendicular to a cover layer and the webs having a branch after this first section. If such a hollow profile is machined, the webs being removed in such a way that the first section oriented perpendicular to the cover layer and a certain section remains after the branching, the entire remaining section shows a substantially T-shaped / 26
    201801710
    Cross-section. Such a T-shaped cross-section of a remaining section of a web is extremely advantageous since it ensures a particularly high stiffening of the remaining cover layer and is also particularly well suited for the attachment of further components (e.g. an inner lining).
    Brief description of the drawings
    The following are examples:
    Fig. 1 light metal hollow profile.
    Fig. 2 Connected light metal hollow profiles.
    Fig.3 Rail vehicle large component.
    Fig. 4 Machined light metal hollow profile.
    Figure 5
    Light-metal hollow profile,
    T-shaped bridge.
    Figure 6
    Light-metal hollow profile,
    I-shaped bridge.
    Figure 7
    Light-metal hollow profile,
    Double leg.
    Figure 8
    Light-metal hollow profile,
    C-groove.
    Figure 9
    Light metal hollow profile, closed chamber.
    Figure 10
    Light-metal hollow profile,
    L-shaped bridge.
    Figure 11
    Light metal hollow profile, angled bridge.
    Figure 12
    Light-metal hollow profile,
    T-shaped bridge,
    Gratreduziert.
    Fig. 13 light metal hollow profile,
    T-shaped bridge,
    Reduced burr, central webs.
    Implementation of the Invention / 26
    201801710
    Fig. 1 shows an example and schematically a light metal hollow profile. A cross section of a light metal hollow profile 2 is shown, as can be used in the present manufacturing process. The light metal hollow profile 2 is closed and has an inner cover layer 3 and an outer cover layer 4. Reference is made to the installation arrangement of the profile in a fully assembled rail vehicle. At the edge, the light metal hollow profile comprises 2 connecting devices for positive or non-positive connection with other profiles. Crosspieces 5 are arranged between the cover layers 3, 4, three crosspieces 5 being provided in the exemplary embodiment shown. The webs 5 have a first section 6, starting from the outer cover layer 4, which is oriented perpendicular to the outer cover layer 4. In a further sequence, the webs after the first section 6 have a branch which comprises a section running parallel to the outer cover layer 4. The further course of the webs 5 is, as is customary in the case of conventional profiles, oriented obliquely to the cover layers 3, 4.
    2 shows an example and schematically connected light metal hollow profiles. Two light metal hollow profiles 2 arranged next to one another are shown, the connecting devices for the positive or non-positive connection being in engagement with one another. In this way, a large rail vehicle component can be assembled, typically over the entire length of the car, with no door or window cutouts available yet.
    3 shows an example and schematically a large rail vehicle component. It is a section of a / 26
    201801710
    Rail vehicle large component 1 shown, which is designed as a side wall. The rail vehicle large component 1 is constructed from a plurality of light metal hollow profiles 2, as shown in FIG. 1. After the individual light metal hollow profiles 2 have been joined together, window cutouts 7 and a partial removal of the inner cover layer 4 and the webs 5 have been produced. In the exemplary embodiment shown, the remaining sections 9 of the inner cover layer 4 are designed as diagonal stiffeners, which brings about a particularly high shear stiffness of the large rail vehicle component 1. Such stiffening is necessary to compensate for the weakening caused by the window cutouts 7. In the partially removed areas 8, sections of the webs 5 have been preserved and form a bulge-resistant support structure arranged near the outer cover layer 4.
    4 shows an example of a machined light metal hollow profile. The light metal hollow profile 2 from FIG. 1 is shown after a part of the inner cover layer 3 and the webs 5 have been removed. The remaining part of the webs 5 has an essentially T-shaped cross section and thus offers a high increase in the buckling stiffness of the profile.
    Figures 5 to 12 represent embodiments of light metal hollow profiles which can be used in the subject method. A section through a machined profile is shown, with a cross section of a web being shown. The sections of the web to be removed and the removed inner cover layer are shown in broken lines.
    / 26
    201801710
    Fig. 5 shows an example and schematically a light metal hollow profile with a T-shaped web. The light metal hollow profile 2 is shown in that embodiment which is shown applied in FIGS. 1 to 4. The profile 2 has an inner cover layer 3 which, in the installed state, faces the interior of a rail vehicle constructed from the profile 2, and also an outer cover layer 4. The cover layers 3, 4 are connected to webs 5, a first section 6 of the outer cover layer 4 extends vertically and at a distance from the outer cover layer 4 branches into an inner belt 10. This inner belt 10 causes a strong increase in the buckling stiffness of the remaining outer cover layer 4 after removal of the webs 5 and the inner cover layer 3. Starting from the edge lines of the inner belt 10, webs 5 extend at an angle to the inner cover layer 3.
    Fig. 6 shows an example and schematically a light metal hollow profile with an I-shaped web. It is a light metal hollow profile 2, similar to the one shown in FIG. 5, but no inner belt is provided, but instead the branches 5 are angled at the end of the first section 6 facing away from the outer cover layer 4. This embodiment can be used when the high buckling stiffness of the profile from FIG. 1 is not required.
    Fig. 7 shows an example and schematic of a light metal hollow profile with a double web. According to this embodiment, the light metal hollow profile 2 has a hollow chamber directly attached to the outer cover layer 4, formed from two vertical webs and a belt, of which / 26 9 10
    201801710
    Corners of this closed chamber each have a web 5 angled to the inner cover layer 3. In the processed state of this light metal hollow profile 2, two vertical sections 6 remain in the form of a double web.
    Fig. 8 shows an example and schematic of a light metal hollow profile with a C-groove. FIG. 8 shows the light metal hollow profile 2 from FIG. 7, but the processing is carried out in such a way that only the angled webs 5 and a central part of the inner belt 10 are removed. This leaves two L-shaped, mutually facing webs, which form a C-groove and can be used to attach other components.
    Fig. 9 shows an example and schematically a light metal hollow profile with a closed chamber. FIG. 9 shows the light metal hollow profile 2 from FIG. 7, but the processing is carried out in such a way that only the angled webs 5 are removed and the inner belt 10 remains. A closed chamber is thus arranged on the outer cover layer 4 on the machined hollow profile 2.
    Fig. 10 shows an example and schematically a light metal hollow profile with an L-shaped web. The light metal hollow profile 2 has an inner belt 10 following the first section 6, at the ends of which a web 5 extends at an angle. The inner belt 10 extends only to one side of the first section 6 and thus forms an L-shaped web together with this first section 6.
    Fig. 11 shows an example and schematically a light metal hollow profile with an angled web. This embodiment / 26 10
    201801710 of a light metal hollow profile 2 essentially corresponds to that which is shown in FIG. 6, the first section 6 being arranged at an angle to the outer cover layer 4.
    Fig. 12 shows an example and schematic of a light metal hollow profile with a T-shaped web. A light metal hollow profile 2 is shown, which is constructed very similar to the profile from FIG. 5. The profile according to FIG. 5 has a disadvantage that after the machining for removing the webs 5 burrs remain on the inner belt 10, since the cutting edge for removing the webs 5 cuts the inner belt 10 in a grinding manner. Burr formation is inevitable at such a location and reworking is necessary to remove these burrs. FIG.
    represents a light metal hollow profile 2, which ensures a significantly reduced burr cut when removing the webs 5. For this purpose, the inner belt 10 is designed with a thickening at its ends and the webs 5 start from the side of these thickenings facing the inner cover layer 3. When the webs 5 are removed by means of a machining process, the burr formation at this point is thus significantly reduced.
    Fig. 13 shows an example and schematically a light metal hollow profile with a T-shaped web. A light metal hollow profile 2 is shown, which essentially corresponds to that from FIG. 5, but with the webs 5 starting centrally from the inner belt 10. By relocating the attachment of the webs 5 from the edges to the center, the burr-prone cuts are eliminated when the webs 5 are removed.
    / 26 '
    201801710
    List of names
    Railcar United component
    Light-metal hollow profiles
    Inner top layer
    Outer top layer
    web
    first section
    F ns out out
    Removed sections of the inner liner
    Remaining sections of the inner top layer
    Inner belt / 26
    201801710
    claims
    1. Process for producing a
    Large rail vehicle component (1) made of light metal hollow profiles (2), with the following process steps:
    - arranging the light metal hollow profiles (2) in a specific sequence,
    - Joining the light metal hollow profiles (2) with the adjacent light metal hollow profiles (2) by means of a welding process
    - At least partial removal of a cover layer (3) of the light metal hollow profiles (2).
    2. Process for producing a
    Large rail vehicle component (1) made of light metal hollow profiles (2) according to claim 1, characterized in that in addition to the cover layer (3) also webs (5) within the light metal hollow profiles (2) are removed.
    3. Process for making a
    Large rail vehicle component (1) made of light metal hollow profiles (2) according to claim 1 or 2, characterized in that the at least partially removed cover layer (3) is designed as the inside of a rail vehicle.
    4. Process for producing a
    Large rail vehicle component (1) made of light metal hollow profiles (2) according to one of claims 1 to 3, characterized in that a milling process / 26. To remove the cover layer (3) and the webs (5)
    201801710 is used.
    5. A method for producing a large rail vehicle component (1) from light metal hollow profiles (2) according to one of claims 1 to 4, characterized in that sections of webs (5) remain below the removed regions of the cover layer (3).
    6. The method for producing a large rail vehicle component (1) from light metal hollow profiles (2) according to claim 5, characterized in that the remaining
    Sections of the webs (5) have a substantially T-shaped cross section.
    7. The method for producing a large rail vehicle component (1) from light metal hollow profiles (2) according to one of claims 1 to 6, characterized in that more than 50% of the surface of a top layer (3) of the light metal hollow profiles (2) are removed.
    8. light metal hollow profile (2) for use in a method for producing a large rail vehicle component (1) according to one of claims 1 to 6, characterized in that the hollow profile (2) is designed closed with two cover layers (3, 4), wherein the cover layers (3, 4) are connected to one another by webs (5) and wherein the webs (5), starting from a cover layer (4), have a first section (6) and after this first section (6) the webs (5) a / 26 '
    201801710
    Have branching.
    / 26 15
    201801710
    17/26
    201801710
    Figure 3
    18/26
    201801710
    X
    X λ X
    O --- ► >
    X X x x x x
    X
    ^ 2
    Fig. 5
    19/26
    201801710
    20/26
    201801710
    X X λ
    X x »X X x x X X X x
    X X
    X x i t / f i i
    I i /
    / / i
    i f t l /
    i i
    / i
    / / i
    t f t l t
    i i
    Fig. 10
    21/26
    201801710 _________________________L.
    Fig. 12
    22/26
    201801710
    Fig. 13
    23/26
    Search report for A 50157/2018 Austrian Patent Office
    Classification of the subject of the application according to IPC:B61D 17/04 (2006.01); Β61Ό 17/08 (2006.01) Classification of the application according to CPC:B61D 17/041 (2013.01); B61D 17/08 (2013.01) Researched test substance (classification):B61D Consulted online database:EPODOC, WPIAP, TXTnn This search report was prepared for claims 1 to 8 filed on February 21, 2018. Category*) Title of the publication:Country code, publication number, document type (applicant), publication date, text or figure if necessary Concerningclaim XAA DE 102012221564 Al (SIEMENS AG) May 28, 2014 (May 28, 2014) Summary; Figures 8 to 10.WO 2017093297 Al (SIEMENS AG AUSTRIA) June 8, 2017 (June 8, 2017)Description Introduction; Claim 6.EP 2669133 Al (SIEMENS AG) December 4, 2013 (December 4, 2013) Summary; Description paragraph [0019]; Figures 9 and 11. 1 to 4.81.81.8 Date of completion of the search: "... , Auditors (in):25.09.2018 beite Ί from Ί HENGL Gerhard *> Categories of the listed documents: A publication that defines the general state of the art.X Publication of special importance: the application P document that is of importance (categories X or Y), but afterobject cannot be published as new or published on the priority date of the registration solely due to this publication,inventive activity can be considered based. E Document of particular importance (Category X) from whichY Publication of importance: the subject of the application may not result in an "older right" (earlier filing date, howevernovelty would be considered as based on inventive step, if the republished, protection is possible in AustriaMake publication with one or more other publications),is associated with this category and this connection for & publication which is a member of the same patent family.is obvious to a specialist.
    24/26
    201801710
    权利要求:
    Claims (6)
    [1]
    1. Process for producing a
    Large rail vehicle component (1) made of light metal hollow profiles (2), with the following process steps:
    - arranging the light metal hollow profiles (2) in a specific sequence,
    - Joining the light metal hollow profiles (2) with the adjacent light metal hollow profiles (2) by means of a welding process, characterized in that
    - An at least partial removal of a cover layer (3) of the light metal hollow profiles (2) takes place, wherein in addition to the cover layer (3) also webs (5) within the light metal hollow profiles (2) are removed, and more than 50% of the area a cover layer (3) of the light metal hollow profiles (2) can be removed.
    [2]
    2. The method according to claim 1, characterized in that the light metal hollow profiles (2) with their partially removed cover layer (3) point inside the rail vehicle.
    [3]
    3. The method according to any one of claims 1 or 2, characterized in that for removing the
    Top layer (3) and the webs (5) a milling process is used.
    [4]
    4. The method according to any one of claims 1 to 3, characterized in that below the removed
    Areas of the top layer (3) sections of webs (5) remain.
    1
    25/26 1 __________________________________________ [LAST CLAIMS *)
    201801710
    AT
    [5]
    5. The method according to claim 4, characterized in that the remaining
    Sections of the webs (5) have a substantially T-shaped cross section.
    [6]
    6. Light metal hollow profile (2) for use in a method for producing a
    Large rail vehicle component (1) according to one of claims 1 to 5, characterized in that the hollow profile (2) is designed closed with two cover layers (3, 4), the cover layers (3, 4) being connected to one another by webs (5) and the webs (5) starting from a top layer (4) have a first section (6) and after this first section (6) the webs (5) have a branch.
    类似技术:
    公开号 | 公开日 | 专利标题
    DE10350670B3|2005-02-03|Metal sheet for producing vehicle components consist of at least two cutouts, with straight joint line
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    DE102004010768A1|2005-09-22|Leaf spring for use in vehicle suspensions is made from resin-impregnated fiber composite and has end which tapers inwards, outer fibers extending completely to it
    EP2165906B1|2011-05-11|Railway vehicle body and method for its manufacture
    DE4011523A1|1990-10-25|METHOD FOR PRODUCING POINTS FOR RILLED RAILS, AND MONOBLOCK POINT MANUFACTURED BY THIS METHOD
    WO2011134788A1|2011-11-03|Reinforced longitudinal beam for a railway vehicle
    AT520978A1|2019-09-15|Method for producing a rail vehicle component from light metal hollow sections
    DE102004008301B4|2006-04-06|profile component
    EP2483123B1|2014-12-31|Large component for rail vehicles
    WO2017093297A1|2017-06-08|Hollow profile
    DE19915278B4|2013-12-05|Edge joint of two components, in particular between a roof plate and an upper side part of a motor vehicle body
    DE102008054159B4|2013-02-28|Method for producing a terminal strip
    DE19534127B4|2005-09-15|Sheet metal parts assembled carrier sheet for a body cover, in particular for a motor vehicle door
    DE102014206196A1|2015-10-15|Roof frame for a vehicle body
    DE3930419A1|1991-03-21|Vehicle superstructure roller shutter door - has panels in sections of hollow, extruded aluminium snapping together
    DE102005005476A1|2006-08-17|Profile for construction purposes, has at least one section with reinforcing element which is formed of at least two parts, which are connected inseparably by means of press-fit
    EP2780130B1|2016-02-10|Method for manufacturing a skin for a large component of a rail vehicle
    DE19916287A1|2000-10-19|Two-dimensional component, in particular for cladding of car bodies of rail vehicles and a method for producing such a two-dimensional component
    DE102013211187A1|2014-12-18|car body
    DE102019212216A1|2021-02-18|Rail vehicle with roof
    DE102019119510A1|2021-01-21|Component arrangement for a chassis, chassis and working device
    DE102017206874A1|2018-10-25|Lashing rail, loading area, vehicle
    AT518382B1|2017-12-15|Car body for a passenger rail vehicle
    DE102009036634A1|2011-02-17|Frame for backrest or seat part of vehicle seat, comprises laminar sheet metal sections, in which typical frame pieces are assigned in area in integrated manner
    同族专利:
    公开号 | 公开日
    EP3727987A1|2020-10-28|
    WO2019162061A1|2019-08-29|
    AT520978B1|2019-11-15|
    CN111819125A|2020-10-23|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    EP2669133A1|2012-05-30|2013-12-04|Siemens Aktiengesellschaft|Railcar body for vehicles|
    DE102012221564A1|2012-11-26|2014-05-28|Siemens Aktiengesellschaft|Car body part|
    WO2017093297A1|2015-12-02|2017-06-08|Siemens Ag Österreich|Hollow profile|
    AT189881T|1996-02-13|2000-03-15|Hoogovens Aluminium Profiltech|CAR BOX ASSEMBLY|
    US6722286B2|1999-12-14|2004-04-20|Hitachi, Ltd.|Structure and railway car|AT522977B1|2020-04-20|2021-04-15|Siemens Mobility Austria Gmbh|Process for the production of a large component of a vehicle body|
    法律状态:
    2020-03-15| PC| Change of the owner|Owner name: SIEMENS MOBILITY AUSTRIA GMBH, AT Effective date: 20200213 |
    优先权:
    申请号 | 申请日 | 专利标题
    AT501572018A|AT520978B1|2018-02-21|2018-02-21|Method for producing a rail vehicle component from light metal hollow sections|AT501572018A| AT520978B1|2018-02-21|2018-02-21|Method for producing a rail vehicle component from light metal hollow sections|
    PCT/EP2019/052495| WO2019162061A1|2018-02-21|2019-02-01|Method for producing a large component for rail vehicles, which consists of hollow light-metal profiled sections|
    EP19704567.7A| EP3727987A1|2018-02-21|2019-02-01|Method for producing a large component for rail vehicles, which consists of hollow light-metal profiled sections|
    CN201980014825.XA| CN111819125A|2018-02-21|2019-02-01|Method for producing a large rail vehicle part from a light metal hollow profile|
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