• 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:
    In order to simplify and clarify a clinching method, the invention proposes a method for folding over an edge (5) of a decorative layer (6) about an edge (7) of a carrier part (8), in which the edge (5) by means of a Umbugschiebers ( 3, 4) is at least partially wrapped around this edge (7), and in which a Fixiermi tel (9) in the form of an activatable adhesive (10, 38) is used to the edge (5) of the decorative layer (6) in fixed to the bent state (30) on the support part (8), the method being characterized in that for activating the adhesive (10, 38) an induction generator (22) is used, which generates alternating electromagnetic fields (24), whereby an induction receiver (32; 36) will cause eddy currents that are converted into heat energy.
    公开号:AT517051A2
    申请号:T169/2016
    申请日:2016-04-01
    公开日:2016-10-15
    发明作者:
    申请人:Kiefel Gmbh;
    IPC主号:
    专利说明:

    The invention relates to a method for folding over an edge of a decorative layer around an edge of a carrier part, wherein the edge is at least partially bent around this edge by means of a Umbugschiebers, and wherein a fixing agent in the form of an activatable adhesive is used to the edge of the decorative layer to fix in the bent state on the support part.
    The invention also relates to a Umbugschiebereinrichtung for Umbugen an edge of a decorative layer around an edge of a support member around with a spatially displaceable Umbugschieber and with a heater for heating the edge or arranged on the edge adhesive the decorative layer.
    The invention further relates to a Umbuganlage for folding over an edge of a decorative layer around an edge of a carrier part, wherein for Umbugen an electromechanically driven Umbugschieber is provided and the Umbuganlage is adapted to use a fixing agent in the form of an adhesive to the edge of the decorative layer in one Adhesive joint to fix in the bent state.
    The invention further relates to a use of a Induktionsnehmers.
    Generic methods for folding over an edge of a decorative layer around an edge of a carrier part, related Umbuganlagen for performing the method and Umbugschieber used here are known from the prior art.
    In general, hereby manufactured components that can be used in an interior of land vehicles, watercraft and aircraft used, but in particular the components for the interior of conventional passenger cars. By way of example fall disguise parts in the field of doors, Armaturentafein, glove boxes or center consoles. Corresponding parts are generally produced by a method in which a preferably flexible material layer with an upper side and a lower side are laminated onto a preferably dimensionally stable carrier with a preferably three-dimensional surface contour.
    For producing carrier elements laminated with such a flexible decorative layer, a distinction is made in the prior art primarily between the so-called vacuum laminating (also referred to as film laminating) and the so-called press laminating.
    When Vakuumkaschieren plastic films are generally laminated as a flexible material layers by application of vacuum on Trä gerteile. For the connection between the carrier and the flexible material layer is applied to the carrier and / or the flexible material layer adhesive. The material layer itself usually has a decor, with leather-like graining are very popular.
    The press lamination is usually used in the processing of flexible material layers that are either not vacuumable, such as textiles, or that are not or only partially stretchable, such as leather or imitation leather. Here, the carrier and the flexible material layer, which are inserted into the tool, pressed or otherwise joined in a predefined press nip. Also in this method, the connection of the elements is achieved by applied to the carrier and / or the flexible material layer adhesive.
    In many cases, a thermally activatable adhesive is used to connect the two elements, which has been applied in advance to one or both elements. This adhesive must be activated before or during lamination. The thermally activatable adhesive may be, for example, a hot melt adhesive, also called hotmelt, but other thermoactivatable adhesives may also be used, for example dispersed polyurethanes.
    This can be done by heating the laminating tools or their mold halves, so that the adhesive in the adhesive joint between the carrier part and the flexible decorative layer is activated by contact of the carrier part and the flexible decorative layer with the heated mold. The heating takes place via a simultaneous heating of the carrier part and the flexible decorative layer. Alternatively, it is known to heat the adhesive layer before contacting carrier part and flexible decorative layer, for example via hot air or infrared.
    A generic method is known for example from WO 2015/018391 Al.
    The invention has for its object to provide the prior art an improvement or an alternative.
    The object of the invention is achieved by a method for folding over an edge of a decorative layer around an edge of a carrier part, in which the edge is at least partially bent around this edge by means of a clincher, and in which a fixing agent in the form of an activatable adhesive is used, to fix the edge of the decorative layer in the umbugten state on the support member, wherein for activating the adhesive, an induction generator is used, which generates alternating electromagnetic fields, which will cause eddy currents in an induction, which are converted into heat energy.
    Through the use of such an induction transmitter can be dispensed with not only an air heater for heating ambient air in the present case, but it can also be dispensed with an often expensive to produce heating channel for guiding heated air to be heated areas zoom.
    Rather, in the present case, a required heat energy is initiated by means of an electromagnetic alternating field, whereby shortened process cycles are achieved.
    Conceptually, the following should be explained:
    The "decorative layer" may primarily include foil, fabric, fabric, leather, artificial leather, fur and the like.
    Above all, the "folding over" should be a folding movement by 90 ° or by 180 °, although other values may be relevant in individual cases, but above all values greater than 90 °.
    The "support member" may be of any nature, but in particular it is part of an interior trim of a motor vehicle, such as an airplane or a passenger car or truck.
    The "Umbugschieber" is very important for the present invention.He characterizes a genus of Umbuganlagen, in which the Umbug not full area by pressing in a work done, but in which individual, discrete elements, namely Umbugschieber, attacking the edge of the decorative layer to be folded and then folding the edge of the decorative layer around the edge of the carrier part by means of a multi-dimensional movement and pressing it there for fixing.A normally, a folding slide is mounted in such a way that it has at least two different axes of movement a horizontal extension movement, whereby in practice other orientations can be encountered, but the calculability of the movements is 'easiest' when the, for example, at least two degrees of freedom differ 90 ° from each other.
    The "fixing agent" may, above all, be an adhesive.In the group of adhesives, thermally activatable adhesives, for example dispersed polyurethanes or hotmelts, are primarily thought of, hotmelts often being referred to as hot melt adhesives, hot melt adhesives, hot melt adhesives or hot melt adhesives are usually solvent-free and at room temperature more or less solid products which are activated in the hot state and applied to the adhesive surface or can already be there and produce a solid compound on cooling, in particular various base polymers such as polyamides, polyethylene, amorphous polyalphaolefins Ethylene vinyl acetate copolymers, polyester elastomers, polyurethane elastomers, copolyamide elastomers or vinyl acetate copolymers, or
    Resins or waxes, often with stabilizers or nucleating agents may be added.
    In particular, in connection with carrying out the method according to the invention, the object of the invention is also a Umbugschiebereinrichtung for Umbugen an edge of a decorative layer around an edge of a support member around with a spatially displaceable Umbugschieber and with a heater for heating the edge of the support member, the edge of the decorative layer , or an adhesive disposed on the edge or the edge, wherein the Umbugschieber comprises an induction generator for generating an alternating electromagnetic field.
    Such a constructed Umbugschiebereinrichtung builds very simple, so that the construction of a Umbuganlage generally simplified in an advantageous manner.
    If the folding slider comprises an induction transmitter used in the context of the invention, other means for heating the adhesive or a correspondingly heatable material with respect to a decorative layer and / or a carrier part can preferably be dispensed with completely in their entirety.
    Furthermore, such a designed Umbugschieber can be easily retrofitted to existing Umbugschiebereinrichtungen or Umbuganlagen.
    It is understood that the present induction generator can be placed at various locations of a Umbuganlage, as long as he can interact with an induction subscriber in the context of the invention.
    The Umbugschiebereinrichtung can be built even more space-saving, when the induction sensor on a decorative layer facing side of the Umbugschiebers - preferably at least partially within the Umbugschiebers - is arranged. Specifically, by arranging the induction sensor in the region of the decorative layer facing side, only a small distance between the induction sensor and induction holder needs to be bridged.
    It is expedient if the electromagnetic alternating field is generated by means of the Umbugschiebers, since the environmental slide can be brought up in the immediate vicinity of the induction receiver.
    The present method can be further simplified if the activatable adhesive is inductively heated by heating the inductive members inherent in the adhesive by means of the electromagnetic alternating fields emitted by the induction transmitter. In this way, it can be ensured that only areas on the decorative layer and / or on the carrier part are heated, which are absolutely necessary for joining the decorative layer and the carrier part. Surrounding areas are thus less and ideally not thermally loaded.
    In this respect, an adhesive is used in the present case, which is designed as an induction receiver, and preferably has especially ferromagnetic particles.
    Cumulatively or alternatively, it is advantageous if the Umbugschieber inductively heated at least partially, in particular designed as a Induktionsnehmer decor layer contact surface of Umbugschiebers, by means of the electromagnetic radiation emitted by the induction generator and before, during and / or after at least partially with the edge to be heated Decor layer is brought into contact. As a result, for example, an adhesive provided on the decorative layer can be assisted or heated exclusively.
    Therefore, it is structurally advantageous if an inductively manipulatable contact surface is designed as induction holder on the Umbugschieber.
    Cumulatively or alternatively, an induction holder can also be arranged on the decorative layer and / or the carrier part. A corresponding induction holder can be configured on the edge of the decorative layer or on the edge of the carrier part, for example, as a multiplicity of metal threads introduced in a textile, or as metallic inserts in the carrier part, or the like. In this respect, the induction receiver would then be a component of the decorative layer and / or of the carrier part.
    The Umbugschieber, in particular provided on the Umbugschieber induction sensor, or realized on the Umbugschieber decorative layer contact surface can be protected against overheating particularly reliable when the induction generator is liquid-cooled. This also applies to electrical contact elements for conducting electrical energy to the Umbugschieber.
    In this respect, it is advantageous if the Umbugschieber is traversed by a cooling fluid. In addition to the overheating protection, a process cycle running on the clincher can be further shortened if a cooling fluid flows through the clincher.
    Thus, the adhesive can not only be heated by means of the Umbugschiebers, but also subsequently be cooled by the Umbugschiebers again.
    Thus, both a heating device and a cooling device can be provided at a suitably equipped Umbuganlage by means of a single functional component, namely by means of the Umbugschiebers with respect to a Umbugprozesses.
    The object of the invention is also achieved by a Umbuganlage for umbugen an edge of a decorative layer around an edge of a support member, for Umbugen an electromechanically driven Umbugschieber is provided and the Umbuganlage is there to be set to use a fixing agent in the form of an adhesive, the Edge of the decorative layer to fix in an adhesive joint in the bent state, and wherein the Umbuganlage has an electromagnetic induction generator and is adapted to turn on and off the induction sensor for indirect or immediate heating and activation of the adhesive. By means of the induction transmitter which can be actuated in this way, the folding device can be structurally easily equipped with respect to a heating device.
    In addition, the use of such an electromagnetic induction generator and the energy consumption can be significantly reduced, so that in particular the method described here can be performed more energy efficient.
    The object of the invention is also achieved by the use of an induction holder of an adhesive arranged on a decorative layer for dressing a carrier part and / or an adhesive arranged on a carrier element for carrying a decorative layer for heating this adhesive.
    In this case, the induction holder is preferably substituted in the existing adhesive or insofar immediately embodied by this adhesive.
    The object of the invention is also the use of a on a decorative layer for dressing a support member and / or on a support member for supporting the decorative layer and / or arranged on a Umbugschieber induction holder for heating an adhesive for bonding an edge of the decorative layer with an edge solved the carrier part.
    By means of such an induction receiver, areas to be heated can be manipulated in a more targeted manner, whereby surrounding areas which are not to be heated are not subject to thermal or only negligible thermal stress.
    In this case, the induction holder can be arranged on or in the decorative layer or on the carrier part.
    Or he is located directly on the Umbugschieber.
    Also combinations of these are possible.
    Alternatively, depending on the application, the adhesive may also be formulated by a material embodying the decorative layer and / or the carrier part.
    For example, ferromagnetic particles are present in the region of the edge of the decorative layer or of the edge of the carrier part, so that an edge modified in this regard or a edge modified in this respect are designed at least in regions as an induction holder.
    In this case, a corresponding induction holder can be configured, for example, as metal threads or the like introduced in a textile, or as metallic inserts in the carrier part, or the like. In this respect, the induction receiver would then be a component of the decorative layer and / or of the carrier part.
    It should be noted at this point that the features of the aforementioned patent application WO 2015/018391 A1 are completely understood to be disclosed here by way of referencing.
    In addition, further features, effects and advantages of the present invention are explained with reference to the accompanying drawings and the following description, in which two variants of Umbugschiebereinrichtungen with differently constructed and induction generators comprehensive Umbugschiebern are shown and described.
    Components, even of different embodiments, which in the individual figures at least substantially coincide in terms of their function, can be characterized with the same reference numerals, wherein the components need not be quantified and explained in all figures.
    In the drawing show:
    Figure 1 shows schematically a starting position of a Umbugschiebereinrichtung shown in a side view comprising a Umbugschieber equipped with an induction generator;
    FIG. 2 schematically shows a further side view of the clinching slide of FIG. 1 shifted in the meantime in a horizontal intermediate position;
    FIG. 3 schematically shows a further side view of the folding slide, which is additionally displaced vertically into a pressing position, from FIGS. 1 and 2;
    4 shows schematically the Umbugschieber shown in Figures 1 to 3 with activated induction sensor and in an adhesive substituted induction holder.
    Figure 5 schematically shows an alternative Umbugschieber with a switched-induction generator and with a Dekorla-gene contact surface as induction holder; and
    FIG. 6 also shows a side view of the clinching slide held in the pressing position from FIGS. 1 to 4 or alternatively from FIG. 5 during active cooling of the induction generator by means of cooling water.
    The Umbugschiebereinrichtung 1 shown in Figures 1 to 6 of a Umbuganlage 2 not shown here is shown and described below essentially only with respect to a first Umbugschiebers 3 (variant A) and another alternative Umbugschiebers 4 (variant B, Figure 5).
    The Umbuganlage 2, the Umbugschiebereinrichtung 1 and consequently also the Umbugschieber 3 and 4 are intended to umgen an edge 5 of a decorative layer 6 around an edge 7 of a support member 8, wherein at least the edge 5 of the decorative layer 6 permanently with the support member 8 and the edge 7 of the support member 8 is operatively connected.
    According to the exemplary embodiments shown in FIGS. 1 to 6, the edge 5 and the edge 7 are connected to one another in a material-locking manner by means of a fixing means 9 already applied in addition to the carrier part 8.
    As fixing means 9, a thermally activatable adhesive 10 is selected here, which is applied as a strip (not additionally numbered) along the edge 7 on the carrier part 8.
    The Umbugschieber 3 has an L-shaped designed base body 15 which is linearly mounted at least in two mutually different directions of movement 16 and 17 movable on the Umbuganlage 2.
    The Umbugschieber 3 is namely in this embodiment, namely in the horizontal directions 18A and 18B back and forth movable and on the other in vertical directions 19 (only exemplified and numbered) down and up-moved. Thus, the Umbugschieber 3 has at least two degrees of freedom, by means of which it can be moved spatially.
    Optionally, the Umbugschieber 3 also have more degrees of freedom, for example, it may also be rotatable about an axis of rotation (not shown) rotatably mounted when its storage is designed according to the Umbugschiebereinrichtung 1.
    The Umbugschieber 3 in this case preferably has an electromechanically operating drive (not shown).
    In any case, by means of the Umbugschiebers 3 of the edge 5 of the decorative layer 6 are bent around the edge 7 of the support member 8 and in this case be curious that the edge 7 surrounded by the decorative layer 6 and the decorative layer 6 is thus well braced permanently attached to the support member 8.
    The Umbugschieber 3 has this Umbugnase 20, by means of which it interacts with the decorative layer 6.
    The Umbugschieber 3 has in particular a contact surface 21, by means of which he temporarily presses the abgerugten edge 5 of the decorative layer 6 in addition to producing a cohesive connection to the support member 8.
    The contact surface 21 is located at the Umbugnase 20th
    At the Umbugnase 20 also an induction sensor 22 is arranged, which is realized here in the form of at least one electric coil element 23 (see in particular Figures 1, 4 and 5).
    The induction generator 22 is in this case embedded in the Umbugschieber 3, that is arranged within the Umbugschiebers 3.
    If the induction generator 22 is now switched on by a suitable switch unit (not shown) preferably provided on the folding apparatus 2, electromagnetic alternating fields 24 (see FIGS. 4 and 5) can be generated by means of the induction transmitter 22 and thus also by means of the folding slide 3, by means of which in turn the fixing means 9 can be heated, as will be explained below with reference to FIGS. 4 and 5.
    In this respect, with the Umbugschieber 3 and in particular with the induction sensor 22 disposed therein, a particularly compact heater 25 is realized on the Umbuganlage 2, which is integrated almost entirely in the Umbugschieber 3.
    According to the illustration according to FIG. 1, the decorative layer 6 and the carrier part 8 are already brought into superposition and the edge 5 of the decorative layer 6 to be bent over is slightly above the edge 7 of the carrier part 8. The Umbugschieber 3 is still in an initial position 26th
    According to the illustration according to FIG. 2, the clincher 3 has already moved to the left according to the first direction of movement 16 in the horizontal direction 18A, so that the clincher 3 with its clincher nose 20 has already brought the edge 5 along a crease line 27 into a horizontal position.
    To bend the edge 5 further down, the Umbugschieber 3 moves approximately simultaneously or subsequently according to the second direction of movement 17 in the vertical direction 19 run-downwards and bends the edge 5 further down, so that the decorative layer 6, the edge 7 of the support member 8 U-shaped encloses.
    As shown in FIG. 3, the clincher 3 is again moved back in the direction of the horizontal direction 18B in order to press the bent edge 5 against the carrier part 8, forming a gap or an adhesive joint 29.
    The edge 7 of the decorative layer 6 is thus in a bent state 30.
    Here, the fixing means 9 are now placed within this glue joint 29 between the edge 5 and the edge 7.
    As already explained above, the fixing means 9 used here are a thermally activatable adhesive 10, which now only has to be activated by the electromagnetic alternating fields 24.
    According to the representation according to FIG. 4, the induction transmitter 22 is switched on for this purpose, this being fed by an electric current flow (not explicitly numbered), which in turn is initiated by means of a generator 31 on the folding device 2.
    In the variant A shown in FIG. 4, the fixing means 9 directly embody an induction holder 32, since in the adhesive 10 used here ferromagnetic particles (not shown) are substituted, by means of which the alternating electromagnetic fields 24 of the induction generator 22 can interact directly, whereby Induktionsnehmer 32 will cause eddy currents (not shown), which in turn are converted within the adhesive 10 into heat energy.
    In this respect, the adhesive 10 in the sense of the invention can be regarded as an induction receiver 32 per se, and the adhesive 10 is heated directly by the switched-on induction generator 22.
    The situation is somewhat different with regard to variant B shown in FIG. 5, in which a ferromagnetic plate element 35 serves as an alternative induction receiver 36, which can interact directly with the electromagnetic alternating fields 24 of the induction transmitter 22, whereby eddy currents will be produced in the alternative induction receiver 36 which are converted into heat energy.
    Here, both the induction generator 22 and the alternative induction holder 36 are arranged on the Umbugschieber 4.
    The contact surface 21 is in this case formed essentially by the ferromagnetic plate element 35 or the alternative induction holder 36.
    The ferromagnetic plate element 35 thus heats up by the interaction with the electromagnetic alternating fields 24, and since it immediately forms a decorative layer contact surface 37, an alternative adhesive 38 is heated indirectly through the decorative layer 6.
    In this respect, in variant B, the alternative adhesive 38 is only indirectly heated by the induction transmitter 22 or by its electromagnetic alternating fields 24.
    It is understood that in the variant B, the adhesive 10 can be used as an additional induction subscriber 32, if this appears reasonable in terms of a custom application.
    Otherwise, the structure of the Umbugschieber 3 and 4 is substantially equal, so that reference is made to the description of the Umbugschiebers 3 with respect to the other features with respect to the Umbugschiebers 4 to avoid repetition.
    In particular, the induction transmitter 22 is respectively arranged on one of the decorative layer 6 and the carrier part 8 facing side 3A and 4A of the Umbugschiebers 3 and 4, so that the electromagnetic alternating fields 24 need not be unnecessarily pronounced. This also makes it possible to operate the heating device 25 or the induction transmitter 22 more energy-efficiently.
    In order to be able to cool down the splice point (not explicitly numbered) after the thermal treatment, both the clincher 3 and the clincher 4 are flowed through by a cooling fluid (not shown).
    For this purpose, the Umbugschieber 3 or 4 with corresponding cooling channels (not shown) traversed, wherein cumulatively or alternatively, the induction sensor 22 such cooling channels (also not shown) may have.
    In a very simple case, the cooling fluid may include water.
    According to the representation according to FIG. 6, the clinching slide 3, which is still shown there, is in a corresponding cooling phase.
    It goes without saying that the exemplary embodiments explained above are only first embodiments of the folding slide device according to the invention. In this respect, the embodiment of the invention is not limited to these first embodiments. All disclosed in the documents features are claimed as essential to the invention, provided they are new individually or in combination over the prior art.
    1 Umbugschiebereinrichtung 2 Umbuganlage 3 first Umbugschieber 3A facing side 4 alternative Umbugschieber 4Δ facing side 5 edge 6 decorative layer 7 edge 8 support part 9 fixing 10 inductively activatable adhesive 15 base 16 first direction of movement 17 second direction of movement 18A first horizontal direction 18B second horizontal direction 19 vertical directions 20 Umbugnase 21st Contact surface 22 electromagnetic induction transmitter 23 at least one electrical coil element 24 electromagnetic alternating fields 25 heating device 26 starting position 27 bending line 28 horizontal position 29 adhesive joint 30 bent state 31 generator 32 induction holder 35 ferromagnetic plate member 36 alternative induction receiver 37 decorative layer contact surface 38 alternative inductively activatable adhesive
    权利要求:
    Claims (14)
    [1]
    Claims:
    1. A method for folding over an edge (5) of a decorative layer (6) about an edge (7) of a carrier part (8), in which the edge (5) at least partially around this edge (7) by means of a folding slide (3; is bent, and in which a fixing means (9) in the form of an activatable adhesive (10, 38) is used to fix the edge (5) of the decorative layer (6) in the bent state (30) on the support part (8) characterized in that for activating the adhesive (10; 38) an induction transmitter (22) is used which generates alternating electromagnetic fields (24) whereby in an induction receiver (32; 36) will cause eddy currents which are converted into thermal energy.
    [2]
    2. The method according to claim 1, characterized in that the electromagnetic alternating field (24) by means of the Umbugschiebers (3, 4) is generated.
    [3]
    3. The method according to claim 1 or 2, characterized in that the activatable adhesive (10) is inductively heated by the adhesive (10) inherent induction holders (32) by means of the induction generator (22) emitted electromagnetic alternating fields (24) are heated ,
    [4]
    4. The method according to any one of claims 1 to 3, characterized in that an adhesive (10) is used, which is designed as an induction holder (32), especially having ferromagnetic particles.
    [5]
    5. The method according to any one of claims 1 to 4, characterized in that the Umbugschiebers (3; 4) at least partially, in particular designed as an induction (36) decor sheet contact surface (37) of the Umbugschiebers (3; 4), by means of the alternating current generator (22) emitted electromagnetic alternating fields (24) inductively heated and before, while and / or subsequently at least partially with the edge to be heated (5) of the decorative layer (6) is brought into contact.
    [6]
    6. The method according to any one of claims 1 to 5, characterized in that the Umbugschieber (3; 4) is flowed through by a cooling fluid.
    [7]
    7. Umbugschiebereinrichtung (1) for Umbugen an edge (5) of a decorative layer (6) around an edge (7) of a support member (8) around with a spatially displaceable Umbugschieber (3; 4) and with a heating device (25) for heating the Edge (7) of the support part (8), of the edge (5) of the decorative layer (6), or one on the edge (7) or the edge (6) arranged adhesive (10, 38), in particular for performing the method according to one of claims 1 to 6, characterized in that the Umbugschieber (3; 4) comprises an induction generator (22) for generating an electromagnetic alternating field (24).
    [8]
    8. Umbugschiebereinrichtung (1) according to claim 7, characterized in that the induction sensor (22) on one of the decorative layer (6) facing side (3A, 4A) of the Umbugschie bers (3; 4) - preferably at least partially within the Umbugschiebers ( 3, 4) - is arranged.
    [9]
    9. Umbugschiebereinrichtung (1) according to claim 7 or 8, characterized in that on the Umbugschieber (3) an inductively manipulatable decorative layer contact surface (37) as an induction holder (36) is configured.
    [10]
    10. Umbugschiebereinrichtung (1) according to any one of claims 7 to 9, characterized in that the induction sensor (22) is liquid-cooled.
    [11]
    11. Umbugschiebereinrichtung (1) according to any one of claims 7 to 10, characterized in that the induction sensor (22) has at least two or three degrees of freedom.
    [12]
    12. Umbuganlage (2) for Umbugen an edge (5) of a decorative layer (6) around an edge (7) of a support part (8), wherein for Umbugen an electromechanically driven Umbugschieber (3; 4) is provided and the Umbuganlage (2) is adapted to use a fixing means (9) in the form of an adhesive (10; 38) to fix the edge (7) of the decorative layer (6) in an adhesive joint (29) in the bent state (30), characterized in that the folding device (2) has an electromagnetic induction transmitter (22) and is set up to switch the induction transmitter (22) on and off for indirect or direct heating and activation of the adhesive (10, 38).
    [13]
    13. Use of an induction holder of a ge at a Dekorla (6) for dressing a support member (8) and / or on a support member (8) for supporting a decorative layer (6) arranged adhesive (10; 38) for heating this adhesive substance ( 10, 38).
    [14]
    14. Use of a on a decorative layer (6) for disguising egg Nes carrier part (8), and / or on a support member (8) for supporting a decorative layer (6), and / or one on a Umbugschieber (3; 4) Induktionsnehmers (36) for heating an adhesive (10; 38) for bonding an edge (5) of the decorative layer (6) with an edge (7) of the support part (8).
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    同族专利:
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    法律状态:
    优先权:
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    DE102015004493|2015-04-03|
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