• 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:
    PROCESS FOR THE MANUFACTURE OF A FORMED PIECE FOR A PIECE OF INNER LINING OF VEHICLE AND FORMED PART. The application relates to a method for the manufacture of a shaped part (1) for an interior vehicle part. In the proposed method, a forming tool is provided with an upper tool half and an inner tool half. In addition, a conformable planar support (9) is arranged between the upper tool half and the lower tool half. In a further step, a projection (17) of the upper tool half is pressed against an upper face (16) of the support (9), so that the support (9) deforms and a cavity (13) is formed in the support (9). In addition, an opening (14) of the support (9) is created in a region of the cavity (13). In addition, a space (20) formed by the cavity (13) is closed above by means of a sealing element (22). In this respect a projection (23) of the sealing element (22) enters the cavity (13) and fills a part of the cavity (13). A fluid and hardenable or self-hardening plastic (11) is then introduced through the opening (14) of the support (9) into the space (20), so that the plastic (11) at least partially fills a part of the space (20) delimited by the support (9) and the sealing element (22). The plastic (11) hardens and the sealing element (22) is removed.
    公开号:ES2651516A2
    申请号:ES201730839
    申请日:2017-06-26
    公开日:2018-01-26
    发明作者:Frank Schäfer;Klos JOCHEN
    申请人:Faurecia Innenraum Systeme GmbH;
    IPC主号:
    专利说明:

    Procedure for manufacturing a shaped part for a vehicle interior lining part and shaped part
    The application refers to a process for the manufacture of a shaped part for a vehicle interior lining part according to the preamble of claim 1 The request also refers to a shaped part
    The vehicle interior lining parts generally comprise a support that gives the vehicle interior lining part a certain stability, and a decorative part arranged on this support, which gives the vehicle interior lining part, among other things , a desired visual aspect, For example, in WO 2010/105855 A2, a manufacturing process is known for a vehicle interior lining part, in which a decorative part is joined with a fiber reinforced support. The decorative piece comprises two layers, which with their end regions are inserted into a groove of a clamping profile. To join the decorative piece with the support, the clamping profile is introduced in a longitudinal recess of the support. In this regard, certain recess geometries are especially suitable for a secure fastening of the clamping profile.
    Also, in the manufacture of vehicle interior lining parts, it is known to compress natural fiber mats by molding presses in a desired shape. However, thus no geometry of the shaped natural fiber mats can be created. In particular, it is often not possible to create desired sharp edges for a particular purpose, since natural fiber mats may have a certain stiffness. If, when manufacturing a vehicle interior lining part, it is desired to join a clamping profile as described above with a compression-molded natural fiber wait, additional processing steps are often necessary, such as a milling of the fiber mat natural, to create the desired geometry of the recess.
    The purpose of the present application is to propose a process for the manufacture of a shaped part for a vehicle interior lining part, whereby a large number of different geometries of the shaped part can be created relatively easily, in particular shapes with sharp edges, also in the case of rigid support materials. In particular, it is an objective of the present application to propose a process for the manufacture of a shaped part that is suitable for housing a fastening profile of a decorative piece.
    These objectives are achieved by means of a procedure with the characteristics of the main claim and by a piece formed with the characteristics of an additional claim. Advantageous improvements are obtained with the characteristics of the additional dependent claims and the embodiments.
    The proposed procedure is suitable for the manufacture of a part shaped for a vehicle interior lining part. In the process, a forming tool is provided with a half of the upper tool and a half of the lower tool. In addition, a conformable flat support is provided between the upper tool half and the lower tool half. In an additional step a protrusion of the upper tool half is pressed against an upper face of the support, so that the support deforms and a cavity is formed in the support. In addition, an opening of the support is created in a region of the cavity. Likewise, a space formed by the cavity is closed by a sealing element. In this regard, a protrusion of the sealing element enters the cavity and fills a part of the cavity. A fluid and / or self-hardening plastic is then introduced through the opening of the support in the space so that the plastic fills at least partially a part of the space delimited by the support and the sealing element. The plastic hardens and the sealing element is removed
    The projection of the sealing element generally has a thinner cross section than the cavity. After removal of the sealing element, the shaped part or the plastic may have a recess. This recess is generally arranged on an upper face of the plastic and in the region of the support cavity. The shape of the recess is determined in this case normally decisively by the shape of the projection of the sealing element. It may happen, for example, that the shape of the projection is completely translated as negative to the shape of an upper face of the plastic. By means of the described procedure, recesses especially suitable for housing a retention profile of a decorative piece can be created. An advantage of the procedure described above and below is that recesses with a precisely defined geometric shape can be produced with the same. Additionally, improved dimensional stability can be achieved.
    After manufacturing the shaped part, for example, a decorative piece with a first and a second decorative layer and a retention profile can be provided. The retention profile can have a groove in an upper face in which an end segment of the first decorative layer is inserted and a segment by pressing the projection of the upper half of the tool against the upper face of the support the cavity can be created by compression molding medium. In this case, the shape of the cavity is generally given decisively by the shape of the projection of the upper half of the tool. It may be provided that by pressing the protrusion of the upper tool half against the upper face of the support, a downward elevation is formed on a lower face of the support. The shape of the elevation directed downward on the lower face of the support then corresponds to the shape of the cavity on the upper face of the support.
    The hardening plastic can be joined by joining the material with the support, in order to easily create a durable bond between the support and the plastic.
    It may be provided that the plastic is introduced into the space such that the plastic fills at least 80% of a volume of the space. In typical embodiments, the fluid plastic is introduced by injection from the middle of the lower tool. For this, the lower tool half can be presented, for example, an injection nozzle. In order to make the plastic fluid before the introduction through the opening, it can be provided to heat the plastic. For example, the lower tool half may comprise heating channels to conduct a plastic melt. It can also be provided that the fluid plastic comprises two heat-hardening components.
    The support can be a fiber mat or comprise a fiber mat. It may be provided, for example, that the fiber mat contains natural fibers and / or synthetic fibers. Such supports are typically characterized by a recyclability and good malleability with a reduced weight. The support can be, for example, a composite material comprising natural fibers and synthetic fibers, for example a so-called NFPP mat
    The plastic can be, for example, a thermoplastic elastomer, for example TPE-E.
    Normally the cavity extends along a longitudinal direction. The cavity can be for example in the form of a trench and / or have an angular cross section. The recess formed on the upper face of the plastic can also extend along the longitudinal direction. The sealing element can be shaped, for example, in such a way that the plastic has, after removal of the sealing element, a groove that extends in the longitudinal direction In this way, the shaped part is suitable for holding retention profiles usual.
    In lipid embodiments, the sealing element is shaped such that the plastic exhibits, after hardening, a rectangular, stepped or trapezoidal recess in a cross section. This cross section can be extended, if necessary, transversely to the longitudinal direction.
    By means of the proposed procedure geometries of the recess of the piece formed with sharp edges can be created. The sealing element may be shaped, for example, in such a way that the plastic has, after hardening, at least one edge whose radius of curvature amounts to a maximum of 0.4 mm.
    Normally, the sealing element and / or the projection of the sealing element has a surface material, to which the plastic does not adhere. For example, the superstructure material may comprise polytetrafluoroethylene (PTFE) or suitable nanoparticles. It may also be provided that the surface material completely forms a surface of the sealing element and / or of the projection OIi towards the cavity
    The opening can run between the upper face of the support and the lower face of the support in the region of the cavity. It may be provided that the creation of the opening will occur without prior removal of the support from the tool for forming yfo by means of a component of the lower tool half. The creation of the opening can occur, for example, by cutting or by punching. For example, it may be provided that the opening is created by making an essentially horizontal cut with a blade. The blade can form, for example, part of the lower tool half.
    The opening can be in various embodiments, for example, essentially round or elongated. Several openings can be provided, arranged spaced apart from each other along the longitudinal direction, when the cavity extends in the longitudinal direction. The dimension of the opening can be, for example, at least 2 mm and a maximum of 8 mm
    The sealing element is normally a part of the upper tool half. In a possible embodiment, the upper tool half is in several parts. A movable part that constitutes the projection of the upper tool half can be narrowed down. This part can move upwards before the introduction of the plastic and serve as a sealing element. In this case, additional movable parts of the upper tool half can be moved laterally, in order to close the cavity above. For example, the upper tool half may have, in addition to the projection, sliding guides that can slide In other embodiments it is provided that the upper tool half is also in several pairs, but by removing a movable part constituting the projection of the middle of top tool after cavity formation. The cavity can then be closed from above by a mobile insert. By using the insert it is possible to easily create a large number of different geometries of the plastic recess
    The shaping tool can be passed from an open state to a closed state. Normally the tool of closing is closed after the support is arranged. While the forming tool remains in the closed state, the support is usually deformed, the opening is created, the cavity is closed and the plastic is introduced through the opening.
    The application otherwise refers to a part confonted for a vehicle interior lining part, the shaped part can be manufactured according to a procedure as described above.
    The terms up, down, top, bottom, etc. they serve only to designate the relative arrangement of the described components. However, the forming tool can also be naturally oriented such that for example the upper tool half is lower or at the same level as the lower tool half
    Examples of embodiment are described below with the help of the figures. Show
    Figure 1 a schematic cross section through a shaped piece and a decorative piece,
    Figure 2 a schematic plan view of the shaped part,
    Figure 3 a schematic view during a process step in a fabrication of the shaped part,
    Figure 4 a schematic view during an additional process step in the manufacture of the confused piece,
    Figure 5 (a) a schematic view during a process step in the manufacture of the shaped part according to a first example and
    Figure 5 (b) a schematic view during a process step in the manufacture of the piece confonted according to a second example.
    Figure 1 shows a confined piece 1 and a decorative piece 2 for a vehicle interior lining piece. The decorative piece 2 comprises a retention profile 3, which has a groove 4 on a top face. In addition, the decorative piece 2 comprises a first decorative layer 5 and a second decorative layer 5 'The decorative layers 5, 5' are sewn between yes by end segments 6, 6 'and inserted with the end segments 6, 6' in the groove 4 of the retention profile 3. The decorative layers 5, 5 'are further sewn with various seams with the retention profile 3. One of these seams is identified by way of example with reference 7. In addition, the decorative piece 2 comprises a rod 8, which is formed for example of an elastically deformable plastic
    The shaped part 1 comprises a conformable flat support 9. The support 9 can be, for example, an NFPP mat, which contains synthetic and natural fibers. The support 9 can also be a "polypropylene with wood fibers" support. Synthetic fibers may comprise, for example, polyolefins, such as polypropylene. Natural fibers may contain, for example, hemp or flax. In order to join the decorative piece 2 with the shaped part 1, the shaped part 1 has a recess 10 on the upper face, in which the retaining rod 3 and the rod 8 can be inserted to make the interior lining part of the vehicle.
    The recess 10 will be delimited by a plastic 11. This plastic 11, which contains, for example, TPE-E, can have two sharp edges 12, 12 'at an upper end in the example shown. The plastic 11 is connected with the support 9 in the region of a cavity 13 of the support 9 by joining material. At one lower end of the cavity 13, the support 9 has an opening 14. The dimension of the opening 14 in the direction shown and extending transversely to a longitudinal direction amounts, for example, to 5 mm.
    Figure 2 shows a plan view of the shaped part 1 Recurring features are provided in this and in the following illustrations of the same references. The recess 10 extends along the longitudinal direction on an upper face of the confined piece 1 The recess 10 may in some embodiments be a groove that extends in the longitudinal direction. In addition, the retention profile 3 represented A process for the manufacture of the shaped part 1 is illustrated in the following figures. In the first place, the conformable support 9 is provided, which at first is widely planar and not open. Next, the cavity 13 is created by compression molding, as shown in Figure 3. In this regard, the support 9 is arranged between a lower and an upper forming tool half. Next, sliding guides 15, 15 'of the upper tool half can be arranged on an upper face 16 of the support 9. In a further stage a projection 17 is provided that narrows down the middle of the upper tool between the sliding guides 15, 15 'The projection 17 of the upper tool half is then pressed down against the upper face 16 of the support 9. In this way the support 9 is deformed, so that the cavity 13 is formed in the support 9 Furthermore, an elevation 18 of the support 9 directed downwards is thus formed.
    Figure 4 shows a view during an additional process stage for the manufacture of the shaped part 1. In this case, the projection 17 of the upper tool half is moved first upwards, so that the projection 17 no longer fills completely the cavity 13 of the support 9. Next, the support 9 is opened in the region of the cavity 13. For this, a cut is made in a horizontal direction 19 with a blade, not shown, of the lower tool half. In this way, the opening 14 of the support 9 appears in the region of the cavity 13. To open the support 9, other methods known per se can also be applied. For example, the opening 14 can be created by punching and / or cutting
    Lateral walls of the support 9 delimit in the region of the cavity 13 laterally a space 20, which is closed from above in an additional process step. For closing, according to one embodiment, the projection 17 of the upper tool half and the sliding guides 15, 15 'can be used, as shown in Figure 5 (a). In this case, the sliding guides 15, 15 'are moved inwardly against the projection 17 moved up the middle of the upper tool, as indicated by the arrows with references 21 and 21'. The sliding guides 15, 15 'then touch the projection 17 of the upper tool half so that the space 20 on the upper face is largely closed in a liquid tight manner. Thus, the sliding guides 15, 15 'together with the projection 17 of the upper tool half a senate element 22.
    The sealing element 22 closes an upper face of the space 20 in an unplanned manner Instead, the projection 17 of the upper tool half has only moved upward until a lower face of the projection 17 of the upper tool half forms a projection 23 of the sealing element 22 that goes down into the space 20.
    Another embodiment for closing the space 20 above is shown in Figure 5 (b) In this case the projection 17 of the upper tool half is first removed. Next, an insert 24 is arranged between the sliding guides 15, 15 '. The insert 24 is shaped in such a way that it closes the space 20 from above and thus constitutes the sealing element 22. A part of the insert enters from above in the space 20 and thus constitutes the projection 23 of the sealing element. sealed 22.
    In a next step, the plastic 11, which is hardenable or self-hardening, is introduced in a fluid state through the opening 14 of the support 9 in the space 20. The plastic 11 can comprise in some embodiments two components, which are then hardened by heat effect To introduce the plastic 11, the lower tool half can be present, for example, heating channels known per se to conduct a plastic melt and / or injection nozzles. In this case, the plastic 11 largely fills a part of the space 20 bounded by the support 9 and the sealing element 22.
    Next, the plastic 11 hardens and joins by joining material with the support 9. To avoid in this respect an adhesion of the plastic 11 to the sealing element 22, the sealing element 22 presents in particular in the region of the projection 23 of the sealing element 22 an appropriate surface material, containing for example PTFE or suitable nanoparticles.
    In a further stage, the sealing element 22 is removed. In addition, the now finished shaped part 1 is removed from a forming tool formed by the lower and upper half of the tool. The shape of the recess 10 of the finished shaped part 1 is determined decisively by the shape of the projection 23 of the sealing element 22. It is possible in this case that the recess 10 is present in a cross-section in the longitudinal direction for example a rectangular, stepped or trapezoidal shape. It is also possible that the plastic 11, as shown in Figure 1, is open from below. However, it is also possible that the plastic 11 is closed at the bottom and is continuous in the section transversely to the longitudinal direction.
    In all embodiments, the plastic 11 normally comprises at least one sharp edge, which has in a cross section a reduced radius of curvature of for example less than 0.2 mm
    权利要求:
    Claims (15)
    [1]
    1 Procedure for manufacturing a shaped part (1) for a vehicle interior lining part, which comprises the following steps:
    -provide a forming tool with one half of top tool and one half ofbottom tool,- dispose of a conformable flat support (9) between the middle of the upper tool and the half of the toollower,-press a projection (17) of the upper tool half against an upper face (16) of the support (9), ofso that the support (9) deforms and a cavity (13) is formed in the support (9),- create an opening (14) of the support (9) in a region of the cavity (13),- closing a space (20) formed by the cavity (13) by means of a sealing element (22),a projection (23) of the sealing element (22) entering the cavity (13) and filling part of the cavity(13),- Insert a fluid and hardenable or self-hardening plastic (11) through the opening (14) of the support (9) in thespace (20), such that the plastic (11) fills at least partially a part of the space (20)delimited by the support (9) and the sealing element (22),- harden the plastic (11) AND-remove the sealing element (22)
    [2]
    2. Method according to claim 1, characterized in that the plastic (11), when hardened, is joined by joining material with the support (9).
    [3]
    3. Method according to one of claims 1 or 2, characterized in that the introduction of the fluid plastic
    (11) is produced by injection from the middle of the lower tool
    [4]
    Four. Method according to one of claims 1 to 3, characterized in that the support (9) is or comprises a fiber mat
    [5]
    5. Method according to claim 4, characterized in that the fiber mat contains natural fibers and / or synthetic fibers
    [6]
    6. Method according to one of claims 1 to 5, characterized in that the cavity (13) extends along a longitudinal direction.
    [7]
    7. Method according to claim 6, characterized in that the sealing element (22) is shaped such that the plastic (11) has, after removal of the sealing element (22), a groove extending in the longitudinal direction.
    [8]
    8. Method according to one of claims 1 to 7, characterized in that the sealing element (22) is shaped such that the plastic (11) has, after hardening, a rectangular, stepped or trapezoidal recess (10) in a section cross
    [9]
    9. Method according to one of claims 1 to 8, characterized in that the sealing element (22) is shaped such that the plastic (11) has, after hardening, at least one edge (12,12 ') whose radius of curvature amounts to a maximum of 0.4 mm
    [10]
    10. Method according to one of claims 1 to 9, characterized in that the sealing element (22) and / or the projection (23) of the sealing element (22) have a surface material to which the plastic (11) does not adhere .
    [11 ]
    eleven . Method according to one of claims 1 to 10, characterized in that the creation of the opening (14) is produced by cutting or by punching.
    [12]
    12. Method according to one of claims 1 to 11, characterized in that the upper tool half has several parts and a movable part that constitutes the projection (17) of the upper tool half narrows downwards and is moved upwards before the plastic insertion (11) And serves as a sealing element (22), additional moving parts moving laterally from the upper half of the tool in order to close the cavity (13) above
    [13]
    13. Method according to one of claims 1 to 11, characterized in that the upper tool half has several parts, a movable part constituting the projection (17) of the upper tool half being removed after the formation of the cavity (13) and closing the cavity (13) above by means of a mobile insert (24)
    [14]
    14. Shaped part (1) for a vehicle interior lining part, manufactured by a method according to one of the preceding claims
    [15]
    15. Method for manufacturing a vehicle interior lining part comprising the steps of a process according to one of claims 1 to 14, characterized by the following steps ·
    +
    provide a decorative piece (2) with a first and second decorative layers (5, 5 ') and a profile of
    retention (3), the retention profile (3) having a groove (4) in which they are located on an upper face
    introduced an end segment (6) of the first decorative layer (5) and an end segment (6 ') of the
    10 second decorative layer (6), - insert the retention profile (3) into a recess (10) arranged on an upper face of the plastic (11)
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    同族专利:
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    DE102016211650A1|2017-12-28|
    ES2651516R1|2018-10-22|
    ES2651516B2|2019-07-12|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    JPS6327178B2|1983-01-28|1988-06-02|Kasai Kogyo Kk|
    EP1604797A1|2004-06-10|2005-12-14|Key Safety Systems, Inc.|Decorative elements for motor vehicle interiors, process and molds for their production|
    AT490863T|2006-08-08|2010-12-15|Novem Car Interior Design Gmbh|GLUING AND COATING OF RAW MATERIAL LAYERS|
    EP2230132B1|2009-03-18|2016-05-25|Faurecia Innenraum Systeme GmbH|Composite part for lining a motor vehicle interior|
    DE102011085225A1|2011-10-26|2013-05-02|Bayerische Motoren Werke Aktiengesellschaft|Process for producing a fiber-reinforced plastic part|
    JP6107569B2|2013-09-25|2017-04-05|トヨタ紡織株式会社|Manufacturing method of resin molding|
    法律状态:
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    优先权:
    申请号 | 申请日 | 专利标题
    DE102016211650.9A|DE102016211650A1|2016-06-28|2016-06-28|Method for producing a molding for a vehicle interior trim part and molding|
    DE102016211650|2016-06-28|
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