TRANSFER SHEET, ITS USE AND METHOD FOR MANUFACTURING A TRANSFER SHEET, WELL AS A METHOD FOR THE MANU

专利摘要:
the invention relates to a transfer sheet (10), in particular a hot stamping sheet, which comprises a support sheet (12) and a transfer layer (14) with a top coating (16) arranged on the support sheet (12) and which can be released from the support sheet (12), and on the support sheet (12), on its side facing the transfer layer (14), a main structure is molded and the top covering (16) comprises a structure, which has a structure that complements the main structure.
公开号:BR112019014172A2
申请号:R112019014172-3
申请日:2018-01-23
公开日:2020-02-11
发明作者:Schmidt Jürgen；KOTT Wolfgang
申请人:Leonhard Kurz Stiftung & Co. Kg；
IPC主号:

专利说明:

Descriptive Report of the Invention Patent for TRANSFER SHEET, ITS USE AND METHOD FOR THE MANUFACTURE OF A TRANSFER SHEET, AS WELL AS A METHOD FOR THE MANUFACTURE OF AN ARTICLE MOLDED BY INJECTION DECORATED USING A TRANSFER LAYER OF A TRANSFER SHEET.
[001] The invention relates to a transfer sheet, its use and a method for manufacturing a transfer sheet. In addition, the invention relates to a method, in particular, an IMD method (IMD = In-Mold-Decoration) for the manufacture of an injection molded article decorated with a transfer layer of a transfer sheet.
[002] Molded composite parts of a sheet and a molded body of synthetic material have been known for a long time. Composite pieces with a surface with palpable tactile or haptic properties, in particular, with a soft touch coating, are becoming more and more important. Depending on the coating, it has a velvety, rubbery or soft surface. Molded parts of this type are increasingly important in communication devices as well as in the construction of vehicles, ships and aircraft.
[003] In general, the composite elements are made of a soft touch layer and of the synthetic material component by means of posterior painting of the component. In this case, a varnish with pigments, fillers, etc. it is applied wet directly on the entire surface. The small particles of the pigments, the filling materials, etc. they then produce an optical change on the dry surface and, through an altered friction, a contribution to the soft touch effect with smoothing or touch over. An example of an optical change would be a matte bonding
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2/31 with high friction with smoothing or touching over.
[004] This later application and, in particular, on the entire surface of the soft touch layer brings with it some disadvantages. On the one hand, this requires a multitude of work steps, which must be carried out in part manually. In addition, the scrap rate is relatively high. In addition, this method requires a very large layer thickness, in such a way that high costs and high material consumption are connected. In addition, particles that protrude from the surface lead to the fact that the surface is sensitive to scratches. Another important constraint of this known method is that through application on the entire surface, it is not possible to produce decorations or motifs, that is, a partial soft touch layer.
[005] Therefore, the task of the invention in question is to prepare a transfer sheet, in particular, with a soft touch effect, which can be used in a wide area of application, in particular also in the area of IMD, without this worsening the properties in the haptic sense.
[006] The task is solved with a transfer sheet, in particular, hot stamping sheet, which comprises a backing sheet and a transfer layer with a top coating, disposed on the backing sheet and which can be released of the support sheet, with the main structure being molded on the support sheet, on its side facing the transfer layer, and the top covering comprises a structure, which presents a structure that complements the main structure .
[007] Furthermore, the task is solved with a method for the manufacture of a transfer sheet, in particular for use as an IMD soft-touch sheet, which comprises a backing sheet and a transfer layer with a coating
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3/31 top, disposed on the support sheet and which can be released from the support sheet, where, in the support sheet, a main structure is placed or produced, in particular, a main relief structure and, being that, it is applied on the main structure of the top coating, in the top coating a structure is formed that complements the main structure of the support sheet.
[008] In addition, the task is solved with a method, in particular, an IMD method for the manufacture of a decorated injection molded article using a transfer layer from a transfer sheet with the following steps:
disposition of a transfer sheet in an injection molding form, injection molding of the transfer sheet with a plastic injection paste, removal of the backing sheet, together with the main structure, of the transfer layer of the transfer sheet .
[009] Through the invention it is made possible to obtain a transfer sheet or a transfer layer of a transfer sheet with a soft touch effect, being that the decoration of the sheet can be chosen freely, that is, it is not restricted to a color as in the case of spray painting the entire surface. In addition, areas with different optical properties are possible, in particular with respect to reflection, absorption, refractive indices, for example, matte and glossy effects, and the individual effects can be adapted accordingly to the respective purpose of use. In addition, the sheet can be well used in the IMD method.
[010] In the present case this is achieved particularly by structuring the surface of the top coat by means of the main structure. In this way, the properties can be controlled
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4/31 functions of the top coating, which is why, in particular, the tactile sensation of the surface, in particular the ability to pick up, the sensitivity of the fingerprint, functions to repel dirt and / or repel liquid and / or the degree of matting. The structure introduced in the top coating provides, in particular, the soft touch effect of the transfer layer of the transfer sheet, in particular, the soft touch effect of the transfer layer of the transfer sheet.
[011] According to the invention, the soft touch effect is understood, in particular, an effect that produces a pleasant, velvety touch sensation - similar to a peach skin. In this case, the varnishes used for the top coating have a soft grip on their surface, in particular. In total, varnishes with a soft touch effect have a palpable haptic effect on their surface.
[012] Furthermore, through the invention it is made possible for the top coating to have a structure, without that structure having to contain pigments, in particular particles and / or solid particles. This is achieved, in particular, by the fact that the main structure is molded only in the top coating. This means, in particular, that the main structure dismounts negatively and leaves corresponding cavities in the top coating. Altogether, the tactile properties can be improved through the sheet according to the invention, in particular by the fact that the friction is increased, as well as the optical properties. In addition, the susceptibility to fingerprint is also decreased.
[013] Preferably, the top coat is executed in such a way that it has a soft touch effect. Ideally, the top coat is made as a soft touch varnish.
[014] Advantageously, a textured varnish presents the
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5/31 main structure. For this, the textured varnish preferably has a raised structure or surface.
[015] The backing sheet may consist of a textured varnish, in particular, a self-supporting textured varnish. If it is a self-supporting textured varnish, it is preferably made of silicone. Advantageously, the textured varnish has a Shore A hardness of 10 to 50.
[016] Preferably, the thickness of the self-supporting textured varnish is between 10 pm and 5000 pm, in particular between 10 pm and 500 pm, particularly preferably between 10 pm and 250 pm. Advantageously, the main structure is introduced into the textured varnish by means of stamping. The self-supporting textured varnish can be, for example, a self-supporting sheet directly textured, in which, preferably, by means of stamping / replication and / or corrosion and / or laser engraving and / or structuring, a structure will be introduced into the material of the leaf.
[017] Preferably, the backing sheet has a backing layer and a textured varnish arranged on the backing layer in the direction of the transfer layer. Preferably, the support layer is made of ABS, ABS / PC, PET, PMMA, PE and / or PPP. The layer thickness of the support layer is preferably between 5 pm and 500 pm, in particular between 6 pm and 100 pm.
[018] Preferably, the textured varnish is placed on the entire surface on the support layer. This means that the textured varnish extends through the entire backing layer. However, it is also possible that the textured varnish is only partially placed, therefore, per section, on the support layer. Preferably, the textured varnish is arranged in the decoration on the support layer. Due to the only partial disposition of the textured varnish on the backing layer, a brighter matte effect can be achieved in all
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6/31 similar. In addition to the different optical properties, the different matte and / or shiny areas are characterized, in particular, with respect to reflection, absorption and / or refractive index, in particular, through different frictions and different tactile properties.
[019] In this case, an optical difference can be perceived between a matte area and a less matte area, in particular, brighter or also a brighter area, in particular, from an optically perceptible brightness difference of 2, measured with a measuring angle of 60 ° with a micro-gloss measuring device from Byk-Gardener, with the naked eye.
[020] If the textured varnish is arranged in the decoration or partially in the support layer, then there are preferably areas that act matte, that is, in particular, those areas, in which the textured varnish is found, and areas that remain brilliant. In the case of shiny areas it may be the surface of the support layer. However, it is also possible that in those areas, where there is no textured varnish, another layer of varnish is applied over the backing layer, in particular, a smooth varnish.
[021] Preferably, the main structure or the textured varnish and / or the top coating have, at least partially, a homogeneous surface structure. In the sense of the invention, as a homogeneous surface structure, in particular, a structure that is formed in such a way that the surface, preferably in a surface area, appears uniform. In the surface area, then, no surface defects are visible.
[022] Preferably, the textured varnish is formed from melamine, polyurethane (PU), polyacrylate, polyol, isocyanate and / or polyvinyl chloride. Advantageously, the textured varnish has a layer thickness of 0.1 pm to 10 pm, in particular, 0.5 pm and 7 pm.
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7/31 [023] Advantageously, the main structure or the textured varnish has a depth of structure from 1 pm to 10 pm, preferably between 2 pm and 4 pm, in particular, between 3 pm and 4 pm. Through such a depth of structure, a particularly good soft-touch effect of the top coating can be achieved.
[024] However, it is also possible that the depths of structures are greater. This is preferably achieved by the fact that the main structure or the textured varnish has larger particles. By choosing particles of corresponding size, the structure depth of the main structure or of the textured varnish can be adapted to the respective use in the best possible way. Ideally, the main structure or the textured varnish has filling materials with a particle size of approximately 6 pm, preferably 8 pm. In principle, particles with a size of 15 pm can also be used. In that case, the possible filling materials can be silicon balls, mineral fillers (for example, corundum or crushed gravel), inorganic fillers (for example, S1O2) and / or also polyurethane particles.
[025] Advantageously, the main structure or the textured varnish has structuring particles. Preferably, approximately 50% to 80% of the structuring particles are between 2 pm and 4 pm in size. The remaining particles, in particular, the remaining 20% to 50% are formed of larger particles. The size of the largest particles can be, for example, from 6 pm to 15 pm.
[026] In principle, particles are not determined in any fixed form. The particles can be formed both as, in particular, broken product with corners, as well as spherical. Ideally, the particles contained in the main structure or in the
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8/31 textured varnish can be formed distinct. It is advantageous if the shape of the particles is adapted to the respective needs.
[027] It is advantageous if the main structure or the textured varnish has an inert chemical surface. In the sense of the invention, the inert surface must be understood in such a way that, under the conditions given respectively, the surface does not react with potential reaction partners, such as air, water, to the top coating or only reacts to a reduced extent insignificant. In this way it can be guaranteed that there will be no connection or union between the top covering and the main structure and, thus, a separation between the top covering and the main structure is possible.
[028] Preferably, the textured varnish has at least one component that can be cured with UV and / or at least one isocyanate component, and / or at least one melamine component.
[029] Advantageously, the top coat is formed of long chain polymers. The polymers can be made cross-linked. Crosslinking is preferably based on UV curing and / or chemical reactions.
[030] Preferably, the topcoat is formed of polyol, polyurethane (PU), PU and polyol copolymers and / or polyurethane (PU) copolymers and polyacrylates. Ideally, the top coating is formed of polyurethane (PU), in particular, with a molecular weight between 2000 and 8000. Preferably, polyurethanes (PU) are formulated through a binder, for example, through polyols and / or through melamine resins, or with an isocyanate binder to form a soft touch varnish.
[031] Advantageously, the thickness of the topcoat layer is between 0.5 pm and 100 pm, in particular between 0.2 pm and 50 pm, particularly preferably between 5 pm and 30 pm.
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9/31 [032] The topcoat, in particular, the binder matrix of the topcoat may contain fillers, preferably spherical PMMA fillers, silicones, polyurethanes, various copolymers and / or mineral substances. In addition, the topcoat, in particular the binder matrix of the topcoat, may contain acrylates containing silicone, polyurethanes containing silicone, oils, waxes and / or dispersions of wax. Through the use of additives or fillers of this type, the elasticity of the top coating and / or the tactile or haptic properties associated with it, such as the so-called feel, can be reinforced.
[033] Advantageously, the top coating has silicones. Through the use of silicones, scratch resistance, grip, as well as the surface quality of the top coating can be improved. In addition, due to the use of silicone, the detachment properties between the top coat and the textured varnish can be controlled.
[034] Preferably, the top coating has components that can be UV hardened. In this case, advantageously, the components that can be cured with UV can be used as a secondary or primary binder.
[035] The top coat can have a degree of gloss between 20 and 60, preferably between 30 and 50. In that case, these relatively high degrees of gloss are preferably measured with a measurement angle of 85 ° with the micro-gloss measuring device from BYK-Gardener.
[036] In order to achieve more matting of the topcoat, the topcoat may contain matting agents. In this case, the possible matting agents can be silicon beads, mineral fillers (for example, corundum or pe
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10/31 ground dregulus), inorganic fillers (for example, S1O2), polytetrafluoroethylene (PTFE, Teflon®) or also polyurethane particles. [037] Ideally, the top coating has an expansion of at least 50%, preferably at least 100%, particularly preferably at least 200%. In this way, a top coat with greater molding capacity is made possible. Through such a swelling behavior of the top coating, the transfer sheet is particularly well suited for use in IMD methods. During molding using the IMD method, the backing sheet absorbs most of the tensile forces. Through the swelling properties of the top coating it is particularly ensured that, when touching the contour of the injection molding tool, the top coating does not assume any damage, in particular, through tears or microcracks. The dilation values were obtained in standardized tensile tests (DIN 53504, ISO 37) with the Zwick Z005 tester from Zwick GmbH & Co. KG, Ulm.
[038] It is advantageous if the top coating has a temperature resistance of up to 200 ° C. In this way it can be ensured that the top coating resists thermal loads through the injection molding material, in particular, in the IMD method and, in particular, that there is no change in the structure or surface of the top coating.
[039] Preferably, the topcoat or the topcoat surface is formed in such a way that it can withstand solvents such as isopropanol and MEK, against inclement weather such as sunlight, rain and / or dew, against food such as coffee, against cleaning agents and / or against mechanical loads, as well as against high thermal loads.
[040] The top coating may have, for example, a
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11/31 HB pencil hardness (HB = hard Black = medium hardness). Pencil hardness is measured, in particular, according to the ASTM 3363 standard with the SH3000 pencil hardness tester from mtv Messtechnik, Erftstadt, Germany. In this case, the hardened pencils graduated with a defined angle and load are pushed through the surface to be tested. In particular, for the ASTM D 3363 standard the test is started with the hardest pencil and is continued down the hardness scale in order to determine which is the next softest pencil that does not damage (most) the coating and which is the next softer pencil that produces (no more) scratches on the coating. Through the combination of the surface structure and the smoothness of the top coat, the tactile properties of the top coat are further improved. In addition, a strong matting effect is produced. In this way, a considerable soft touch effect can be obtained in total. It is conceivable that the top coat has a lower hardness than the main structure, than the textured varnish and / or the known protective paints of IMD sheets.
[041] It is advantageous if a peeling layer is arranged between the top cladding and the main structure. This layer provides for safe detachment of the transfer layer from the transfer sheet. In addition, a very strong adhesion between the top coating and the main structure or the textured varnish can be avoided by the fact that the main structure or the textured varnish has corresponding additives such as silicone, aliphatic hydrocarbons, etc. However, it is also possible for the top coating to have corresponding additives, such as silicone, aliphatic hydrocarbons, etc.
[042] In order to be able to process the transfer sheet well, in particular, in classic decoration methods such as, for example, in
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12/31 vertical stamping, unwinding or also in the IMD method, the separation force between the top coating and the main structure or the textured varnish is preferably between 3 N / m and 40 N / m, in particular preferably between 10 N / m and 30 N / m. For this purpose, the transfer layer can be easily and safely detached in total. For this purpose, in particular, the transfer layer is stamped with a width of 35 mm and a length of 150 mm on an ABS plate at 180 ° C, and a speed of 13 m / min. In this case, the detachment force measurement is preferably carried out on a Zwick / Roell Z 1.0 tensile testing machine at room temperature (20 ° C). For this, the transfer layer is removed from the ABS plate, in particular, with an angle of 90 ° and a measuring path of 150 mm, and the peeling force is determined.
[043] Preferably, the peeling layer has a layer thickness of 0.001 pm to 2 pm, in particular 0.05 pm. The peeling layer may consist of a wax or have a wax. The wax can be, for example, a carnauba wax, an acid paraffin ester, a polyethylene wax, a polyamide wax or a PTFE wax. However, in addition, superficially active substances such as silicone are also suitable as a peeling layer. Thin layers of varnishes cross-linked with melamine formaldehyde resin can also serve as a peeling layer.
[044] Advantageously, a mediation layer, in particular an adhesive mediation layer or an adhesion agent, is arranged on the side of the top coating away from the backing sheet. The mediation layer provides, in particular, that a very good adhesion is produced between the top coat and the other layers of the transfer layer. In addition, the
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13/31 mediation serves, in particular, as a barrier layer. It prevents substances that penetrate from outside on the top coating from being able to penetrate the other layers of the transfer layer.
[045] Preferably, the mediation layer has crosslinked acrylates, in particular polyacrylates, polyester resins, alkyd resins, as well as their modifications, amino resins, starch resins or phenolic resins. As a crosslinking component, isocyanate can be used. In this case, in principle, all current cross-links can be imagined. A UV crosslink can be used, as well as a dual curing system, therefore, in particular, a crosslink based on external irradiation energy, and additionally on the basis of chemical reactions.
[046] Ideally, the mediation layer has a layer thickness between 0.1 pm to 10 pm, preferably between 0.5 pm and 5 pm, particularly preferably between 0.3 pm and 4 pm .
[047] Furthermore, the transfer sheet, in particular, the transfer layer has a decoration layer, in particular, at least one colored layer, and / or at least one metallization and / or at least one layer of adhesive or a base layer. In this case, the layers can be applied over the entire surface as well as only partially or per section.
[048] The decoration layer may have one or more partial colored layers or over the entire surface to produce a pattern and / or a motif. In particular, the colored layers can also be in the register for the partial areas of the soft touch varnish with its different optical properties, with respect to reflection, absorption and / or refractive index. The layer thickness of the decoration layer can preferably be from 0.1 pm to 10 pm, in particular from 0.5 pm to 5 pm.
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14/31 [049] As a register or adjuster or register accuracy or adjuster accuracy, a position accuracy of two or more elements and / or layers must be understood in relation to each other. In this case, the recording accuracy must move within a predetermined tolerance, in which case it must be as small as possible. At the same time, the accuracy of recording several elements and / or layers, in relation to each other, should increase an important characteristic, around the safety of the process. In this case, positioning with position accuracy can occur in particular, by means of adjuster marks or register marks detectable by sensor, preferably optically. In that case, these adjuster marks or registration marks may represent either separate special elements or areas or layers, or they may even be part of the elements or areas or layers to be positioned.
[050] The decoration layer can have a replication layer, in which micro or macrostructures are molded that act in a diffractive and / or refractive way. Preferably, this replication layer is equipped with a reflection layer, which can consist of a metallization and / or an HRI layer with a high shrinkage index (HRI = High Refractive Index). In this case, the reflection layer can be opaque, semi-transparent or transparent.
[051] In the replication layer, one or more of the following structures can be molded: a diffractive structure, a zero-bending structure, a Blaze grid, a macrostructure, in particular, a lens structure or microprism structure, a surface reflective, an opaque structure, in particular, an anisotropic or isotropic opaque structure.
[052] In the replication layer the structures can represent a pattern and / or a motif, which can be arranged in particular,
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15/31 also in the register for the colored layers of the decoration layer and / or in the register for the partial areas of the soft touch varnish. [053] Metallization is preferably produced by means of steam. In particular, Cr, Sn and / or Al are suitable as metal. By using a metal layer, a soft touch sheet with metal optics is obtained. Steam metallization can occur on the entire surface and optionally remain maintained on the entire surface, or, however, be structured with known demetallization processes such as corrosion, lift-off or photolithography, and thus only partially exist. However, metallization can also consist of a printed layer of metal pigments in a binder. These printed metal pigments can be applied to the entire surface or partially, and in different areas of the surface they can have different colors. Metallization can represent a pattern and / or a motif, which can be arranged in particular, also in the register for the colored layers of the decoration layer and / or for the structures of the replication layer and / or in the register for the partial areas of the soft touch varnish.
[054] The adhesive layer or the base layer in particular provides that between the transfer sheet or between the transfer layer of the transfer sheet and a molding material of synthetic material or a body of synthetic material there is a good adhesion.
[055] The adhesive layer or the base layer preferably has a layer thickness of 0.1 pm to 10 pm, in particular, 0.1 pm to 3 pm, and can also have several partial layers.
[056] Advantageously, at least partially, on the side of the backing layer, away from the top coat, or on the side of the textured varnish, away from the top coat.
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16/31 haptic varnish. In the sense of the invention, as haptic varnish should be understood, in particular, a varnish, which leads to a spatial structure of depth or deformation of the sheet. For this, the haptic varnish is, in essence, stable. Due to the action of external force, the haptic varnish is compressed into the softest deformable support layer and / or the softest deformable structure varnish, which is why this varnish shapes its negative shape. If a sheet with such a haptic varnish continues to be processed, for example, in an IMD process or in hot stamping, then the haptic varnish does not deform or imperceptibly deforms. The use of a transfer sheet with haptic varnish for the IMD process or for hot stamping enables the formation of deep spatial structures on the transfer layer in an injection molding article, decorated with a transfer layer of this type . In this way, in addition to the soft touch effect, a perceptible relief structure can be produced partially or on the entire surface, likewise haptic or tactile and also optically. In this case, the haptic varnish can also be arranged, in particular, in the register for the partial areas of the soft touch varnish and / or for the colored layers of the decorating bale and / or for the structures of the replication layer and / or in the registration for partial areas of metallization.
[057] The haptic varnish preferably has a layer thickness between 1 pm and 500 pm, in particular, between 5 pm and 100 pm. [058] For the depths to be produced from the spatial structuring, the layer thickness of the haptic varnish is decisive. In order to obtain a spatial structure that can be detected haptically, a haptic varnish, in particular, of at least 5 pm, preferably at least 10 pm in thickness, is required, which under the processing conditions for the sheet transfer cannot
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17/31 be deformed or can only be deformed a little. The thickness of the haptic varnish on a support sheet, in this case, can be made differently, in such a way that at the same time spatial structures of different depths can be produced.
[059] In particular, it has been proven whether the haptic varnish has a hard plastic or a thermoplastic with a glass transition temperature Tg of 200 ° C. However, the use of a haptic varnish with a non-crosslinked varnish system, filled with a filling material, has also been proven, and the filling material is preferably made up of inorganic filling materials such as oxide titanium. Haptic varnishes of this type are stable and pressure-proof, so that a deformation of the structure layer under injection conditions does not occur or only occurs on an extremely low scale.
[060] Furthermore, it has been proven particularly whether the haptic varnish is a varnish that can be cured by irradiation, for example, that can be cured by UV, or a varnish that can be cured by electron beam, or a varnish that it can be hardened by epoxy or a varnish which can be hardened by isocyanate or acid hardened varnish. Reticulated varnishes of this type have the required shape and pressure stability at high processing temperatures and can also be processed well with a high solid body content.
[061] In that case, it is particularly preferred if the haptic varnish has a solid body content of at least 40%, preferably 100%. The high content of solid body increases the thickness of the target layer of the haptic varnish, and improves the transcription capacity of the haptic varnish. Consequently, the target depth of space structures is increased.
[062] It has been proven to be advantageous if the haptic varnish
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18/31 is colored differently from the transfer sheet or backing layer. This makes possible an optical examination of the haptic varnish, for example, in view of its fullness, as well as a simpler and more accurate positioning of the transfer sheet in the chosen processing method.
[063] It is advantageous if the main relief structure is produced by applying the textured varnish on the support layer. The application of the textured varnish on the backing layer preferably takes place in an additional process step. The textured varnish can be printed, in particular, in a solution of up to 150 pm. The textured varnish can be applied to the entire surface as well as partially or to decorate the backing layer. In principle, it is also conceivable that, in a first stage, the textured varnish is applied to the entire surface on the support layer, and in another stage, it is partially removed again by means of corrosion.
[064] If the textured varnish is only partially placed on the backing layer, then it is advantageous if the areas on the backing layer, where no textured varnish is available, are applied, at least partially, another varnish, in particular , a varnish with a non-raised surface, preferably with a smooth and / or shiny surface.
[065] Advantageously, on a shiny backing layer, in particular, a slightly matte textured varnish is applied. However, it is also possible that an even more matte textured varnish is applied to an already thin backing layer. This results in an optical effect, in particular, from an optically perceptible brightness difference of 2, measured at an angle of 60 ° with a micro-gloss measuring device from BykGardener. Advantageously, the glow effect can be adapted
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19/31 and / or freely selected according to aspects of design and / or functionality.
[066] In order to improve the adhesion between the backing layer and the textured varnish, the backing layer can be pre-treated. In this way it is ensured that the textured varnish can be removed from the transferred transfer layer up to 100% safely again together with the backing layer, in particular, after an IMD process. This can be achieved, in particular, by pretreating the support layer. Methods such as corona treatment, irradiation of UV light as well as flame are suitable for this.
[067] It is advantageous if the top coating is hardened by UV hardening or thermally during the manufacture of the transfer sheet.
[068] The other layers of the transfer layer, in particular the mediation layer or the adhesion agent, the decoration layer, preferably the colored layer and / or the adhesive layer or the base layer are applied to the top coating advantageously by printing. The application of metallization occurs, in particular, by means of steam.
[069] If the transfer sheet according to the invention is used in a method, preferably in an IMD method, for the manufacture of an injection molded article decorated using the transfer layer of the transfer sheet, then it is It is advantageous if, during the manufacture of the transfer sheet, the top coating is hardened, in particular, by UV and / or thermally hardening. However, it is also possible for the top coat to harden as a post-cure sheet. In the sense of the invention, as hardening of the top coating as a post-cure sheet, in particular, a hardening
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20/31 UV after processing, in particular, molding on an injection molded article.
[070] The use of the transfer sheet as a soft-touch sheet stood out as ideal. In addition, the use of the transfer sheet according to the invention as an IMD sheet stood out as excellent. It is also ideal to use the transfer sheet according to the invention for the manufacture of an injection molded article decorated with the transfer layer, which has a soft touch effect on the transfer layer area. The transfer sheet with the soft-touch coating ready or with the soft-touch surface is inserted into an injection molding tool and then injected.
[071] Decorated injection-molded articles of this type are preferably used as decorative building elements for motor vehicles, for ships, for aircraft or also in telecommunication or household appliances.
[072] Then the invention will be exemplified by several examples of execution with the help of the attached drawings. In this case, they are shown:
[073] In Figure 1, a schematic cross-section of a transfer sheet.
[074] In Figure 2, a schematic cross-section of another transfer sheet.
[075] In Figure 3, a schematic cross-section of another transfer sheet.
[076] In Figure 4, a schematic cross-section of another transfer sheet.
[077] In Figure 5, a schematic cross-section of another transfer sheet.
[078] In Figure 6, a schematic representation in section of
Petition 870190064112, of 07/09/2019, p. 26/57
21/31 another transfer sheet.
[079] In Figure 7, a schematic cross-section of an injection molded article decorated with a transfer layer.
[080] Figure 1 shows a schematic cross-section of a transfer sheet 10. The transfer sheet 10, preferably a hot stamping sheet, has a support sheet 12 and a transfer layer 14 arranged on the a support sheet 12 and that can be detached from the support sheet 12. The transfer layer 14 comprises a top coating 16. On the support sheet 12, on its side facing the transfer layer 14, a main structure is molded , the top lining 16 comprising a structure, which has a structure that complements the main structure. It is advantageous if a textured varnish 18 has the main structure.
[081] The structure introduced in the top coating 16 provides, in particular, the soft touch effect of the transfer sheet 10. According to the structure of the surface of the top coating 16, by means of the main structure the functional properties of the top coating 16, which is why, in particular, the properties of the surface sensitive to touch or haptics, the sensitivity of the fingerprint, functions that repel dirt and / or liquid and / or the degree of matting can be controlled.
[082] The support sheet 12 shown in Figure 1 preferably has a support layer 20 and the textured varnish 18 arranged on the support layer 20, in the direction of the transfer layer 14. Preferably, the support layer 20 is formed of ABS, ABS / PC, PET, PC, PMMA, PE and / or PPP. The layer thickness of the backing layer 20 is advantageously between 5 pm and 500 pm, in particular between 6 pm and 100 pm.
Petition 870190064112, of 07/09/2019, p. 27/57
22/31 [083] Textured varnish 18 is arranged with the entire surface on the backing layer 20. Advantageously, textured varnish 18 is formed from melamine, polyurethane (PU), polyacrylate, polyol, isocyanate and / or chloride polyvinyl.
[084] Ideally, textured varnish 18 has a layer thickness of 0.1 pm to 10 pm, in particular, 0.5 pm to 7 pm. It is advantageous if the textured varnish 18 has a depth of structure between 1 pm and 10 pm, preferably between 2 pm and 4 pm, in particular, between 3 pm and 4 pm. Through such a structural depth, a particularly good soft-touch effect of the top coating 16 can be obtained. However, it is also possible that the structural depths are greater. This is preferably achieved by the fact that the main structure or the textured varnish 18 has larger particles. By choosing particles of corresponding size, the structure depth of the main structure or of the textured varnish 18 can be adapted in the best possible way to the respective use. Ideally, the main structure or textured varnish 18 has filling materials with a particle size of approximately 6 pm, preferably 8 pm. In principle, particles with a size of 15 pm can also be used.
[085] Advantageously, the top coat 16 is formed of long chain polymers. The polymers can be made cross-linked. Crosslinking is preferably based on UV curing and / or chemical reactions. Most preferably, the topcoat 16 is formed of polyol, polyurethane (PU), polyurethane (PU) copolymers and polyol and / or polyurethane (PU) copolymers and polyacrylates. Ideally the top coating 16 is formed of polyurethane (PU), in particular, with a molecular weight between 2000 and 8000. Preferably, polyurethanes are formulated
Petition 870190064112, of 07/09/2019, p. 28/57
23/31 through a binder, for example, through polyols and / or through melamine resins, or with an isocyanate binder to form a soft touch varnish.
[086] Advantageously, the thickness of the topcoat layer 16 is between 0.5 pm and 100 pm, in particular, between 0.2 pm and 50 pm, particularly preferably between 5 pm and 30 pm.
[087] The topcoat 16, in particular, the binder matrix of the topcoat 16 may contain fillers, preferably spherical PMMA fillers, silicones, polyurethanes (PU), various copolymers and / or substances minerals. In addition, the topcoat 16, in particular, the binder matrix of the topcoat 16 may have acrylates containing silicone, polyurethanes containing silicone, oils, waxes and / or dispersions of wax. Through the use of additives or fillers of this type, the elasticity of the top coating 16 and / or the tactile and haptic properties associated with it, such as the so-called feel, can be reinforced.
[088] Advantageously, the top coating 16 has silicones. Through the use of silicones, scratch resistance, grip, as well as the surface quality of the top coat 16 can be improved. In addition, by using silicone, the peeling properties between the top coat 16 and the textured varnish 18.
[089] Ideally, topcoat 16 has an expansion of at least 50%, preferably at least 100%, particularly preferably at least 200%. In this way, a top coating 16 with greater molding capacity is made possible. Through such expansion behavior of the top coating 16, the transfer sheet 10 is particularly
Petition 870190064112, of 07/09/2019, p. 29/57
24/31 well suited for use in the IMD method.
[090] Preferably, between the top coat 16 and the textured varnish 18, a peeling layer 22 is arranged. This peeling layer 22 provides for a safe peeling of the transfer layer 14 from the transfer sheet 12, due to the fact that it is too strong adhesion between the topcoat 16 and the textured varnish 18 is avoided. Instead or in addition to a peeling layer 22 it is advantageous if the textured varnish 18 and / or the topcoat 16 have additives such as silicones , aliphatic hydrocarbons, etc., which decrease the adhesion between the top coat 16 and the textured varnish 18.
[091] Preferably, the peel layer 22 has a layer thickness of 0.001 pm to 2 pm, in particular, 0.05 pm to 1 pm. The peeling layer 22 may consist of a wax, or it may have a wax. The wax can be, for example, a carnauba wax, an acid paraffin ester, a polyethylene wax, a polyamide wax or a PTFE wax. In addition, however, as a peeling layer 22, superficially active substances such as silicones are also suitable. Thin layers of varnishes cross-linked with melamine formaldehyde resin can also serve as a peeling layer 22.
[092] Advantageously, on the side of the top liner 16 away from the support sheet 12, a mediating layer 24, in particular an adhesion agent, is arranged. The mediation layer 24 provides, in particular, that a very good adhesion is produced between the top coat 16 and the other layers of the transfer layer 14. In addition, the mediation layer 24 advantageously serves as a barrier layer. In particular, it prevents substances that penetrate from outside in the top coating 16 from being able to penetrate the other layers of the transfer layer 14.
Petition 870190064112, of 07/09/2019, p. 30/57
25/31 [093] Preferably, the mediation layer 24 has crosslinked acrylates, in particular polyacrylates, polyester resins, alkyd resins, as well as their modifications, amino resins, starch resins or phenolic resins. As a crosslinking component, isocyanate can be used. In this case, in principle, all current cross-links can be imagined. A UV crosslink can be used as well as a dual curing system, therefore, in particular, a crosslink based on external irradiation energy and additionally based on chemical reactions.
[094] Ideally, the mediation layer 24 has a layer thickness between 0.1 pm and 10 pm, preferably between 0.5 pm and 5 pm, particularly preferably between 0.3 pm and 4 pm.
[095] In addition, transfer sheet 10, in particular transfer layer 14, has a decoration layer 26. In the case of decoration layer 26 it is, in particular, a colored layer. The layer thickness of the decoration layer 26 may preferably be from 0.1 pm to 10 pm, in particular from 0.5 pm to 5 pm. The decoration layer 26 is executed on every surface. However, it is also conceivable that the decoration layer 26 is applied only partially or per section.
[096] The decoration layer 26 may have one or more partial colored layers or on the entire surface, for the production of a model and / or a motif, which present, in particular, also in the registration for the partial areas of the varnish soft touch with its different optical properties, in particular, with respect to reflection, absorption or refractive index. The layer thickness of the decoration layer 26 is preferably 0.1 pm to 10 pm, in particular from 0.5 pm to 5 pm.
[097] The decoration layer 26 can have a replication layer, in which micro or macro structures are molded that
Petition 870190064112, of 07/09/2019, p. 31/57
26/31 act as diffractive and / or refractive. Preferably, this replication layer is equipped with a reflection layer, which may consist of a metallization 28 and / or an HRI layer with a high refractive index (HRI = High Refractive Index). In this case, the reflection layer can be opaque, semi-transparent or transparent.
[098] In the replication layer, one or more of the following structures can be molded: a diffractive structure, a zero order diffraction structure, a Blaze grid, a macrostructure, in particular, a lens structure or microprism structure, a mirrored surface, a matte structure, in particular, an anisotropic or isotropic matte structure.
[099] The structures in the replication layer can represent a pattern and / or a pattern, which can also be arranged in the register for the colored layers of the decoration layer 26 and / or in the register for the partial areas of the soft touch varnish .
[0100] Preferably, the metallization 28 is produced by means of steam. In particular, Cr, Sn and / or Al are suitable as metal. Using a metal layer, a soft touch sheet with metal optics is obtained. The vaporized metallization 28 can occur on every surface and optionally be maintained on every surface or, however, it can be structured with demetallization methods known as corrosion, lift-off or photolithography and, therefore, exist only partially. The metallization 28 can also consist of a printed layer made of metal pigments in a binder. These printed metal pigments can be applied to the entire surface or partially and in different surface areas they can have different colors. Metallization 28 can represent a pattern or pattern, which, in particular, can also be arranged in the register for the colored layers of the layer
Petition 870190064112, of 07/09/2019, p. 32/57
27/31 of decoration 26 and / or for the structures of the replication layer and / or in the register for the partial areas of the soft touch varnish. [0101] In addition, transfer sheet 10, in particular transfer layer 14, preferably has an adhesive layer 30 or a base layer. The adhesive layer 30 or the base layer in particular provides that between the transfer sheet 10 or between the transfer layer 14 of the transfer sheet 10 and an injection molding material of synthetic material 36 or a body of synthetic material there is good adhesion. In this case, the adhesive layer 30 can be applied to the entire surface or also only partially or per section. The adhesive layer 30 or the base layer preferably has a layer thickness of 0.1 pm to 10 pm, in particular, 0.1 pm to 3 pm.
[0102] Figure 2 shows a schematic sectional representation of another transfer sheet 10. In Figure 2, the textured varnish 18 'is partially placed, therefore, by section, on the backing layer 20. Ideally, the textured varnish 18 'is arranged in the decoration on the backing layer 20. Through the arrangement only by section of textured varnish 18' on the backing layer 20, in particular, surface sections with different degrees of gloss or different matting can be made. In addition to the different optical properties, in particular, with respect to reflection, absorption and / or the refractive index, the various surface sections are characterized, in particular, by different friction and different tactile properties.
[0103] If the textured varnish 18 'is arranged in the decoration or partially on the support layer 20, then, preferably, there are areas 40, which act in a matte way, that is, in particular, those areas, in which the textured varnish 18 'meets and
Petition 870190064112, of 07/09/2019, p. 33/57
28/31 there are 38 areas, which remain bright. In the case of shiny areas 38, it may be the surface of the backing layer 20. However, it is also possible that in those areas, in which there is no textured varnish 18 ', another layer of varnish is applied on the backing layer 20, in particular, a smooth varnish. [0104] Figure 3 shows a schematic cross-section of another transfer sheet 10. The support sheet 12 'shown in Figure 3 consists of textured varnish 18'. In this case, preferably, it is a self-supporting textured 18 'varnish. Preferably, the textured varnish 18 is formed of silicone. Advantageously, the 18 'textured varnish has a Shore A hardness of 10 to 50.
[0105] Preferably, the thickness of the self-supporting textured 18 'varnish is between 10 pm and 5000 pm, in particular between 10 pm and 500 pm, particularly preferably between 10 pm and 250 pm. Advantageously, the main structure is introduced into the textured varnish 18 'by means of stamping.
[0106] The transfer layer 14 shown in Figure 3 corresponds, in essence, to the transfer layer 14 shown in Figure 1.
[0107] Figure 4 shows a schematic cross-section of another transfer sheet 10. Transfer layer 14 of transfer sheet 10 has metallization 28. Preferably, metallization 28 is produced by means of steam. In particular, Cr, Sn and / or Al are suitable as metal. By using a metal layer, a soft touch sheet with metal optics is preferably obtained. In Figure 4, metallization 28 is performed on every surface. However, it is also possible that the metallization 28 is only partially arranged, in particular, in the decoration.
Petition 870190064112, of 07/09/2019, p. 34/57
29/31 [0108] In order to maintain good adhesion between the metallization 28 and the decoration layer 26, an adhesion agent 24 'is arranged between these layers.
[0109] The backing sheet 12 shown in Figure 4 corresponds, in essence, to the backing sheet 12 shown in Figure 1. It has a backing layer 20 and a textured varnish 18 arranged on it over the entire surface. However, the textured varnish 18 can also only be arranged in the decoration on the support layer 20.
[0110] Figures 5 and 6 show a schematic cross-sectional representation of another transfer sheet 10, being that, on the side of the support layer 20, away from the top coating 16, there is at least partially a haptic varnish 32. The haptic varnish 32 has, in essence, a stability of form. If a sheet with a haptic 32 varnish continues to be processed, for example, in an IMD method or during hot stamping, then the haptic 32 does not deform or only deforms insignificantly. The use of a transfer sheet 10 with haptic varnish 32 for the IMD or hot pressure method makes it possible to form spatial structures in the area of the transfer layer 14 on a molded article of synthetic material 34 with a decorated layer of that type .
[0111] Preferably, the haptic varnish 32 has a layer thickness between 1 pm and 500 pm, in particular, between 5 pm and 100 pm. In order to obtain a detectable spatial structure, a haptic varnish 32, in particular with a thickness of at least 5 pm, preferably at least 10 pm, is required, which under processing conditions for the transfer sheet 10 it does not deform or deforms little.
[0112] The transfer layer 14 represented in Figure 5
Petition 870190064112, of 07/09/2019, p. 35/57
30/31 corresponds, in essence, to the transfer layer 14 shown in Figure 1. The transfer layer 14 shown in Figure 6 corresponds, in essence, to the transfer layer 14 shown in Figure 2.
[0113] Figure 7 shows a schematic cross-section of an injection molded article 34, decorated with a transfer layer 14. Preferably, the injection molded article 34 is manufactured using an IMD method. For this, the transfer sheet 10 is arranged in an injection molding form. Then the transfer sheet 10 is injected with a synthetic material injection paste 36. In a further step the support sheet 12, together with the main structure, is removed from the transfer layer 14 of the transfer sheet 10 together with the structure main. In this way the top coating 16, together with the other layers, remains on the plastic injection material 36 and together forms the injection molded article 34. The top coating 16 represents the outer layer of the article molded by injection 34. In this way, the injection molded article 34 has a soft touch effect.
Petition 870190064112, of 07/09/2019, p. 36/57
31/31 of the reference numbers transfer sheet support sheet transfer layer top coat textured varnish support layer detachment layer mediation layer / adhesion agent decoration layer metalization adhesive layer / base layer haptic varnish molded article by injection synthetic material injection mass glossy area matte area

权利要求:
Claims (44)
[1]
1. Transfer sheet (10), in particular, hot stamping sheet, which comprises a support sheet (12) and a transfer layer (14) with a top coating (16) disposed on the support sheet ( 12) and that can be released from the support sheet (12), characterized by the fact that on the support sheet (12), on its side facing the transfer layer (14), a main structure is molded, and that the top covering (16) comprises a structure, which has a structure that complements the main structure.
[2]
2. Transfer sheet (10) according to claim 1, characterized by the fact that a textured varnish (18) has the main structure.
[3]
Transfer sheet (10) according to claim 2, characterized in that the support sheet (12) consists of a textured varnish (18), in particular, a self-supporting textured varnish (18).
[4]
Transfer sheet (10) according to claim 2, characterized in that the support sheet (12) has a support layer (20) and textured varnish (18) disposed in the support layer (20) in direction of the transfer layer (14).
[5]
Transfer sheet (10) according to any one of the preceding claims, characterized in that the main structure or the textured varnish (18) and / or the top coating (16) has at least partly a structure homogeneous surface.
[6]
6. Transfer sheet (10) according to any one of the preceding claims, characterized in that the main structure or the textured varnish (18) has a structure depth from 1 pm to 10 pm, preferably between 2 pm and 4
Petition 870190064112, of 07/09/2019, p. 38/57
2/7 pm, in particular, between 3 pm and 4 pm.
[7]
Transfer sheet (10) according to any of the preceding claims, characterized in that the main structure or the textured varnish (18) has an inert chemical surface.
[8]
Transfer sheet (10) according to any one of the preceding claims, characterized in that the textured varnish (18) has at least one component that can be UV-cured and / or at least one isocyanate component, and / or at least one melamine component.
[9]
Transfer sheet (10) according to any one of the preceding claims, characterized in that the top coating (16) is formed of long chain polymers.
[10]
Transfer sheet (10) according to any one of the preceding claims, characterized in that the top coating (16) is formed of polyurethane, in particular, with a molecular weight between 2000 and 8000.
[11]
Transfer sheet (10) according to either of claims 9 or 10, characterized in that the polyurethanes are formulated through a binder, for example, through polyols and / or through melamine resins, or with an isocyanate binder to form a soft-touch varnish.
[12]
Transfer sheet (10) according to any one of claims 9 to 11, characterized in that the polymers are formed cross-linked.
[13]
Transfer sheet (10) according to any one of the preceding claims, characterized in that the top coating (16), in particular the top coating binder matrix (16), contains filler materials of preferably, spherical PMMA filling materials, silicones, polymers
Petition 870190064112, of 07/09/2019, p. 39/57
3/7 retans, various copolymers and / or mineral substances.
[14]
Transfer sheet (10) according to any one of the preceding claims, characterized in that the topcoat (16), in particular the topcoat binder matrix (16) comprises acrylates containing silicone, polyurethanes containing silicone, oils, waxes and / or wax dispersions.
[15]
Transfer sheet (10) according to any one of the preceding claims, characterized in that the top coating (16) has silicones.
[16]
Transfer sheet (10) according to any one of the preceding claims, characterized in that the top coating (16) has components that can be UV hardened.
[17]
Transfer sheet (10) according to any one of the preceding claims, characterized in that the top coating (16) has a degree of gloss between 20 and 60, preferably between 30 and 50.
[18]
Transfer sheet (10) according to any one of the preceding claims, characterized in that the top coating (16) has a matting agent.
[19]
Transfer sheet (10) according to any one of the preceding claims, characterized in that the top coating (16) has an expansion of at least 50%, preferably at least 100%, in particular preferably at least 200%.
[20]
Transfer sheet (10) according to any one of the preceding claims, characterized in that the top coating (16) has a temperature resistance of up to 200 ° C.
[21]
21. Transfer sheet (10) according to any
Petition 870190064112, of 07/09/2019, p. 40/57
4/7 one of the preceding claims, characterized in that the top coating (16) is formed in such a way that it has a soft touch effect, preferably it is formed as a soft touch varnish.
[22]
22. Transfer sheet (10) according to any of the preceding claims, characterized in that the top coating (16) has an HB pencil hardness.
[23]
23. Transfer sheet (10) according to any one of the preceding claims, characterized in that a peeling layer (22) is arranged between the top coating (16) and the main structure or textured varnish (18). .
[24]
24. Transfer sheet (10) according to any one of the preceding claims, characterized in that a mediation layer (24) is arranged on the side of the top cover (16), away from the backing sheet (12), in particular, an adhesive mediation layer.
[25]
25. Transfer sheet (10) according to the preceding claim, characterized by the fact that the mediation layer (24) has crosslinked acrylates, in particular polyacrylates, polyester resins, alkyd resins, as well as their modifications, amino, starch resins or phenolic resins.
[26]
26. Transfer sheet (10) according to either of the preceding claims 24 or 25, characterized in that the mediation layer (24) has a layer thickness between 0.1 pm to 10 pm, preferably between 0.5 pm and 5 pm, particularly preferably, between 0.3 pm and 4 pm.
[27]
27. Transfer sheet (10) according to any of the preceding claims, characterized in that the transfer sheet (10), in particular the transfer layer (14), has a decoration layer (26), in particular, a
Petition 870190064112, of 07/09/2019, p. 41/57
5/7 colored layer, a metallization (28) and / or an adhesive layer (30) or a base layer.
[28]
28. Transfer sheet (10) according to any one of the preceding claims, characterized in that on the side of the backing layer (20) away from the top coating (16) or on the side of the textured varnish (18) away from the top coating (16) is at least partially coated with a haptic varnish (32).
[29]
29. Method for making a transfer sheet (10), in particular, a transfer sheet (10) for use as an IMD soft-touch sheet, which comprises a backing sheet (12) and a layer transfer (14) with a top coating (16), arranged on the support sheet (12) and which can be released from the support sheet (12), characterized by the fact that on the support sheet (12) is placed or a main structure, in particular a main relief structure, is produced, which is applied on the main structure of the top coating (16), and in the top coating (16) a structure is formed that complements the main structure support sheet (12).
[30]
30. Method according to claim 29, characterized in that the main structure is produced by applying a textured varnish (18) on a support layer (20), in particular, of PET.
[31]
31. Method according to claim 30, characterized in that the textured varnish (18) is printed.
[32]
32. Method according to claim 30 or 31, characterized in that the textured varnish (18) is applied to the entire surface over the support layer (20).
[33]
33. Method according to either of claims 30 or 31, characterized in that the textured varnish (18)
Petition 870190064112, of 07/09/2019, p. 42/57
6/7 is applied partially on the support layer (20).
[34]
34. Method according to claim 33, characterized by the fact that in areas on the support layer (20), where no textured varnish (18) is available, another varnish is applied, at least partially.
[35]
35. Method according to any one of claims 29 to 34, characterized in that for the improvement of adhesion between the backing layer (20) and the textured varnish (18) the backing layer (20) is pre-treated.
[36]
36. Method according to any one of claims 29 to 35, characterized in that the top coating (16) is cured by UV curing or thermally during the manufacture of the transfer sheet (10).
[37]
37. Method according to any one of claims 29 to 36, characterized in that other layers are preferably applied to the top coating (16), in particular a mediation layer (24) or coating agent. adhesion, a decoration layer (26), preferably a colored layer and / or an adhesive layer (30).
[38]
38. Method according to any one of claims 29 to 37, characterized in that a metallization (28) is applied, in particular, by means of steam.
[39]
39. Method according to any of claims 29 to 38, characterized in that on the side of the backing layer (20), away from the top coat (16) or on the side of the textured varnish (18), away from the coating top layer (16), there is at least partially a haptic varnish (32).
[40]
40. Use of the transfer sheet (10) as defined in any one of claims 1 to 28, characterized in that it is as an IMD sheet.
Petition 870190064112, of 07/09/2019, p. 43/57
7/7
[41]
41. Use of the transfer sheet (10) as defined in any one of claims 1 to 28, characterized in that it is as a soft-touch sheet.
[42]
42. Method, in particular, IMD method for the manufacture of an injection molded article (34) decorated using a transfer layer (14) of a transfer sheet (10) characterized by the following steps:
arrangement of a transfer sheet (10) as defined in any one of claims 1 to 28 in an injection molding form, injection molding of the transfer sheet (10) with a plastic injection material (36), removed of the support sheet (12), together with the main structure, of the transfer layer (14) of the transfer sheet (10).
[43]
43. The method of claim 42, characterized in that, during the manufacture of the transfer sheet (10), the top coating (16) is cured, in particular, by means of UV curing and / or thermally.
[44]
44. Method according to either of Claims 42 and 43, characterized in that the hardening of the top coating (16) is carried out as a post-cure sheet.

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法律状态:
2021-10-13| B350| Update of information on the portal [chapter 15.35 patent gazette]|

优先权:

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申请号 | 申请日 | 专利标题

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DE102017101595.7|2017-01-27|

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DE102017101595.7A|DE102017101595B3|2017-01-27|2017-01-27|Transfer film, its use and method for producing a transfer film and method for producing an injection molded article decorated with a transfer layer of a transfer film|

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PCT/EP2018/051574|WO2018138082A1|2017-01-27|2018-01-23|Transfer foil, use thereof, a method for producing a transfer foil, and a method for producing an injection-moulded article decorated using a transfer layer of a transfer foil|

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