Classifications

• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B30—PRESSES
  • B30B—PRESSES IN GENERAL
  • B30B15/00—Details of, or accessories for, presses; Auxiliary measures in connection with pressing
  • B30B15/06—Platens or press rams
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B30—PRESSES
  • B30B—PRESSES IN GENERAL
  • B30B15/00—Details of, or accessories for, presses; Auxiliary measures in connection with pressing
  • B30B15/06—Platens or press rams
  • B30B15/062—Press plates
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B30—PRESSES
  • B30B—PRESSES IN GENERAL
  • B30B15/00—Details of, or accessories for, presses; Auxiliary measures in connection with pressing
  • B30B15/06—Platens or press rams
  • B30B15/065—Press rams
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B30—PRESSES
  • B30B—PRESSES IN GENERAL
  • B30B3/00—Presses characterised by the use of rotary pressing members, e.g. rollers, rings, discs
  • B30B3/005—Roll constructions
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B30—PRESSES
  • B30B—PRESSES IN GENERAL
  • B30B5/00—Presses characterised by the use of pressing means other than those mentioned in the preceding groups
  • B30B5/04—Presses characterised by the use of pressing means other than those mentioned in the preceding groups wherein the pressing means is in the form of an endless band
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B44—DECORATIVE ARTS
  • B44B—MACHINES, APPARATUS OR TOOLS FOR ARTISTIC WORK, e.g. FOR SCULPTURING, GUILLOCHING, CARVING, BRANDING, INLAYING
  • B44B5/00—Machines or apparatus for embossing decorations or marks, e.g. embossing coins
  • B44B5/02—Dies; Accessories
  • B44B5/026—Dies

Definitions

• the invention relates to a pressing tool and a method for producing a pressing tool.
• Pressing tools e.g. in the form of press plates, endless belts or embossing rollers, are used in the woodworking industry, for example, to produce furniture, laminates or panels, i.e. general workpieces.
• the workpieces are pressed with the pressing surface of the pressing tool, so that the workpieces have surfaces corresponding to the pressing surface.
• WO 2009/062488 A2 discloses a press plate with a structured press surface.
• the structured press surface includes a structure that has a mountain-like surface with valleys and heights.
• the structured pressing surface is produced by deep etching and comprises a full-surface chrome layer that rests on the material plate during pressing.
• WO 03/016034 A1 discloses a further press plate with a structured press surface.
• the structured press surface is provided with a coating made of carbon with diamond-like layers and a surface hardness of over 1800 HV according to Vickers.
• WO 2008/120058 A1 discloses a pressing tool, the pressing surface of which is formed by a layer consisting of a metal matrix with mineral or ceramic particles embedded therein.
• WO 2017/081008 A1 discloses a press sheet made of polyetheretherketone, which has a structured press surface with different degrees of gloss.
• the polyetheretherketone is enriched with at least 10 to 50% with a carbon fiber, a graphite powder or a thermally conductive material.
• the object of the invention is to specify an improved pressing tool with a pressing surface.
• a pressing tool for producing a workpiece having a basic structure made of metal, a pressing surface and a lacquer or plastic layer which is arranged on the basic structure and at least partially forms the pressing surface and in which mineral particles are embedded.
• the lacquer or plastic layer can be a full-surface lacquer or plastic layer and, for example, forms the entire press surface.
• the lacquer or plastic layer can be a partial lacquer or plastic layer and then only partially forms the press surface.
• Another aspect of the invention relates to a method for producing the press tool according to the invention, comprising a coating of the basic structure with the lacquer or plastic layer with the addition of the mineral particles, e.g. in the form of a mineral powder.
• the press tool according to the invention is, for example, an endless belt, an embossing roller or preferably a press plate and comprises the press surface.
• the pressing surface can be smooth or preferably comprise a structure of elevations and depressions, that is to say it can be a structured pressing surface. This gives the workpiece a structured surface corresponding to the structure of the press surface.
• the workpiece is, for example, a material plate.
• a material plate This includes, for example, a carrier, e.g. an MDF board or a chipboard, which e.g. is pressed with a resin or plastic coated or impregnated carrier, e.g. in the form of paper, using the pressing tool.
• the material plate can also be a so-called luxurious vinyl tile (LVT).
• the pressing tool comprises the basic structure made of metal, in particular made of steel. If the press surface has the structure, the basic structure is accordingly structured.
• the structured basic structure can be produced, for example, by applying masks and etching, as is familiar to the person skilled in the art.
• the pressing surface is in contact with the workpiece and is therefore subject to wear.
• the pressing surface should therefore be relatively wear-resistant, which is why conventional pressing tools are coated with at least one hard chrome layer that forms the pressing surfaces.
• the pressing tool according to the invention comprises the lacquer or plastic layer in which the mineral particles are embedded. Due to the embedded mineral particles, the wear resistance of the paint or plastic layer is significantly increased.
• the mineral particles are designed, for example, as mineral powder.
• a worn press tool according to the invention can optionally be reconditioned relatively easily, since it may be possible to relatively easily remove the worn paint or plastic layer with mineral particles embedded therein and replace it with a new paint or plastic layer with mineral particles embedded therein.
• Minerals are mostly inorganic, homogeneous, mostly crystallized substances that occur in the earth's crust.
• the majority of the minerals known today and recognized as independently by the International Mineralogical Association are inorganic.
• the mineral particles of the paint or plastic layer in particular have a Mohs hardness of at least 8.
• the mineral particles have a size in the nanometer or micrometer range.
• the mineral particles can be embedded relatively homogeneously in the paint or plastic layer, which gives it a relatively homogeneous hardness over its entire surface.
• the sizes of the individual mineral particles can be different or essentially the same.
• the mineral particles preferably have a volume fraction of at least 50% based on the volume of the lacquer or plastic layer with mineral particles embedded therein. Based on the size, the volume fraction and the type of minerals in the mineral particles, the desired degree of hardness of the lacquer or plastic layer with embedded mineral particles can be set.
• the mineral particles are in particular diamond particles.
• the diamond particles are in particular industrial diamond particles, i.e. the diamond or mineral particles in general can be produced artificially.
• the minerals silicon carbide, boron nitride, boron carbide, aluminum oxide and titanium oxide in particular can also be used as mineral particles.
• the mineral particles are designed, for example, as mineral powder, in particular as diamond powder and preferably as industrial diamond powder.
• the plastic layer preferably comprises polyetheretherketone or consists of polyetheretherketone.
• the pressing surface preferably comprises the structure of elevations and depressions, so that the basic structure is structured in accordance with the structure of the pressing surface.
• the basic structure in particular the structured basic structure, can be treated with the lacquer or plastic layer before the arrangement or coating of the basic structure, so that the lacquer or plastic layer preferably adheres better to the basic structure.
• This treatment can be a mechanical treatment of the basic structure, due to which, for example, the surface of the basic structure is roughened, for example, so that the lacquer or plastic layer adheres better to the basic structure.
• the treatment of the basic structure can comprise a galvanic and / or chemical treatment of the basic structure and / or the treatment of the basic structure with a laser. Due to the handling of the basic structure, for example, the structure of the basic structure can be refined.
• the lacquer or plastic layer with the embedded mineral particles is a partial lacquer or plastic layer with the mineral particles embedded therein, which is only arranged in predetermined areas.
• the wear of the pressing tool or its pressing surface is particularly pronounced in the areas of the elevations, at least in the area of certain elevations.
• the lacquer or plastic layer with the embedded mineral particles is therefore preferably a partial lacquer or plastic layer with the mineral particles embedded therein, which are only arranged on the basic structure in predetermined areas that are assigned to the elevations or predetermined elevations of the press surface.
• the production of this variant of the pressing tool preferably includes a partial coating of the basic structure with the lacquer or plastic layer with the addition of the mineral particles.
• This variant of the press tool can be produced in particular depending on the image data assigned to the structure of the press surface, ie the production of this variant of the press tool preferably includes a partial coating of the basic structure with the lacquer or plastic layer while adding the mineral particles depending on the structure of the press surface Image data.
• the pressing surface is assigned to a natural material such as wood or stone.
• an original for example a piece of wood or a stone, is scanned in order to obtain image data.
• image data include, in particular, information about the structure that the press surface should have.
• the image data obtained as a result of the scanning can be edited manually, for example, in order to obtain the image data assigned to the structure of the press surface.
• this comprises a further lacquer or plastic layer designed as a full-area lacquer or plastic layer.
• the lacquer or plastic layer with the embedded mineral particles is then preferably a partial lacquer or plastic layer with the embedded mineral particles, the full-area lacquer or plastic layer being arranged between the basic structure and the partial lacquer or plastic layer.
• the full-area lacquer or plastic layer is arranged directly on the basic structure and the partial lacquer or plastic layer is arranged directly on the full-area lacquer or plastic layer.
• the partial lacquer or plastic layer with the mineral particles embedded therein is preferably arranged on the full-surface lacquer or plastic layer only in predetermined areas, which are preferably assigned to the elevations or predetermined elevations of the pressing surface.
• the partial lacquer or plastic layer and areas of the full-surface lacquer or plastic layer free from the partial lacquer or plastic layer form, in particular, the press surface.
• the production of this variant of the pressing tool preferably comprises a full-surface coating of the basic structure with the further or full-surface lacquer or plastic layer, in particular with the addition of further mineral particles, and a partial coating of the full-surface lacquer or plastic layer with the partial lacquer or plastic layer with the addition of the Mineral particles.
• the partial coating is preferably carried out as a function of the image data assigned to the structure of the press surface.
• the full-surface lacquer or plastic layer and the partial lacquer and plastic layer each have degrees of gloss. These two degrees of gloss are preferably different, so that the surface of the workpiece produced with the pressing tool also has areas of different degrees of gloss.
• the different degrees of gloss of the paint or plastic layers can be achieved, for example, by hardening the paint or plastic layers, e.g. by UV radiation, electron beam or laser hardening, or by exposure to different temperatures.
• further mineral particles are embedded in the further or the full-surface lacquer or plastic layer.
• the production of this variant of the pressing tool preferably comprises a full-surface coating of the basic structure with the further lacquer or plastic layer with the addition of further mineral particles.
• the mineral particles and the further mineral particles can have the same size, the same volume fraction based on the volume of their layer and / or the same type of minerals.
• the further mineral particles are in particular diamond particles, preferably industrial diamonds.
• the minerals silicon carbide, boron nitride, boron carbide, aluminum oxide and titanium oxide in particular can also be used as mineral particles.
• the further mineral particles or diamond particles are designed in particular as a further mineral or diamond powder.
• the paint or plastic layer wears off over time.
• it comprises an indicator layer which is arranged below the lacquer or plastic layer or below the further lacquer or plastic layer.
• the indicator layer is provided to indicate wear of the lacquer or plastic layer arranged on the indicator layer, that is to say in particular also wear of the pressing surface.
• the indicator layer therefore has a different optical property than the lacquer or plastic layer or the further lacquer or plastic layer. If the lacquer or plastic layer or the further lacquer or plastic layer is at least partially so heavily worn that it has been completely removed at least in some areas, the indicator layer is visible in these areas. Due to the different optical properties, this is then particularly visible to the human eye, so that a person can recognize in a relatively simple manner when the pressing tool is too worn.
• the production of this variant of the pressing tool preferably comprises arranging the indicator layer on the basic structure, in particular coating the basic structure with the indicator layer and coating the indicator layer with the lacquer or plastic layer or the further lacquer or plastic layer.
• the basic structure in particular the structured basic structure, can be treated with the indicator layer before the arrangement or the coating of the basic structure, so that the indicator layer preferably adheres better to the basic structure.
• This treatment can be a mechanical treatment of the basic structure, due to which, for example, the surface of the basic structure is roughened, for example, so that the indicator layer adheres better to the basic structure.
• the treatment of the basic structure can comprise a galvanic and / or chemical treatment of the basic structure and / or the treatment of the basic structure with a laser. Due to the handling of the basic structure, e.g. the structure of the basic structure can be refined.
• the indicator layer is, for example, a lacquer indicator layer, the optical property of which differs from the optical property of the lacquer or plastic layer or the further lacquer or plastic layer.
• the optical property is, for example, a color and / or a fluorescence.
• particles having optical properties are embedded in the indicator layer, so that the indicator layer has a corresponding optical property that differs from the optical property of the lacquer or plastic layer or the further lacquer or plastic layer.
• the optical properties of the indicator layer of this variant are achieved by means of the particles embedded therein.
• the optical properties are e.g. a color or a fluorescence.
• the particles of the indicator layer are therefore, for example, color particles, so that the indicator layer has a corresponding color, and / or fluorescent particles, so that the indicator layer has fluorescent properties.
• the particles of the indicator layer can also be mineral particles, in particular mineral color particles or diamond color particles, preferably
• the particles of the indicator layer in particular have a size in the micrometer or nanometer range.
• the manufacture of this variant of the pressing tool includes, for example, arranging the indicator layer on the basic structure, in particular coating the basic structure with the indicator layer, in particular with the addition of the particles, and coating the indicator layer with the lacquer or plastic layer with the addition of the mineral particles.
• the production of this variant of the pressing tool comprises in particular arranging the indicator layer on the basic structure, in particular coating the basic structure with the indicator layer, in particular with the addition of the particles, coating the entire surface of the indicator layer with the further lacquer or plastic layer, in particular with the addition of the further mineral particles, and a partial coating of the full-surface lacquer or plastic layer with the partial lacquer or plastic layer with the addition of the mineral particles, in particular as a function of the image data assigned to the structure of the press surface.
• the indicator layer can be made of metal or plastic, for example, or it can be a lacquer indicator layer. In particular, the embodiment made of metal with particles embedded therein results in a relatively long-lasting pressing tool.
• the indicator layer made of metal can be applied to the basic structure by means of a galvanic or chemical process, for example.
• the metal of this indicator layer is preferably chromium-free, in particular made of nickel or copper, as a result of which the press tool according to the invention can be produced in a relatively environmentally friendly manner.
• Coating with the lacquer or plastic layer or with the further lacquer or plastic layer or with the indicator layer can be, for example, lacquering, printing, in particular by means of digital printing, or powder coating.
• the pressing surface i.e. the lacquer or plastic layer or the further lacquer or plastic layer, can also be finally processed with a laser.
• FIG. 2 shows a detail of a side view of a first exemplary embodiment of the press plate in a sectional illustration
• FIG. 3 shows a detail of a side view of a second exemplary embodiment of the press plate in a sectional illustration.
• FIG. 1 shows, in a perspective illustration, a press plate 1 with a press surface 2 as an example of a press tool.
• Figures 2 and 3 each show a detail of a side view of two exemplary embodiments of the press plate 1 in sectional representations.
• the press plate 1 comprises a basic structure 10 made of metal and, in the case of the present exemplary embodiments, the press surface 2 has a structure of depressions 3 and elevations 4, so that the basic structure 10 is structured in accordance with the structure of the press surface 2.
• the pressing surface 2 is assigned to a wood grain, for example.
• the basic structure 10 is preferably made of steel and has been produced, for example, by deep etching.
• a workpiece for example a material plate, for example a laminate, can be produced by pressing. After pressing, the workpiece has a surface structured in accordance with the structure of the pressing surface 2.
• the press plate 1 comprises a lacquer or plastic layer 11 which is arranged on the base structure 10 and in which mineral particles 12 are embedded.
• the lacquer or plastic layer 11 can be a partial or full-area lacquer or plastic layer.
• the mineral particles 12 are in particular diamond particles and have a size in the nanometer or micrometer range.
• the sizes of the individual mineral particles 12 can be different or essentially the same.
• the mineral particles 12 preferably have a volume fraction of at least 50% based on the volume of the lacquer or plastic layer 11 with mineral particles 12 embedded therein.
• the lacquer or plastic layer 11 is a plastic layer, then this preferably comprises polyetheretherketone or consists of polyetheretherketone.
• the pressing tool 1 of the first exemplary embodiment was produced, for example, by coating the basic structure 10 with the lacquer or plastic layer 11 with the addition of the mineral particles 12. This was done, for example, by painting, printing or powder coating.
• the lacquer or plastic layer 11 can be arranged directly on the basic structure 10.
• the first exemplary embodiment shown in FIG. 2, however, comprises an indicator layer 13 which, in the case of the present exemplary embodiment, is arranged directly on the basic structure 10.
• the lacquer or plastic layer 11 is in turn arranged directly on the indicator layer 13.
• the indicator layer 13 has a different optical property than the lacquer or plastic layer 11. If the lacquer or plastic layer 11 is at least partially so heavily worn that it has been completely removed at least in some areas, the indicator layer 13 is visible in these areas.
• the production of the press plate 1 according to the first exemplary embodiment preferably comprises coating the basic structure 10 with the indicator layer 13 and then coating the indicator layer 13 with the lacquer or plastic layer 11.
• the indicator layer 13 is a colored lacquer layer which, if necessary fluoresces.
• the lacquer or plastic layer 11 is a partial lacquer or plastic layer, then it is in particular only in areas that are assigned to the elevations 4 or specific elevations 4 of the pressing surface 2, directly on the base structure 10 or directly on the indicator layer 13, e.g. by coating arranged.
• the basic structure 10 can be treated with the indicator layer 13 before the basic structure 10 is coated, so that, for example, the indicator layer 13 adheres better to the basic structure 10.
• This treatment can include a mechanical treatment and / or a galvanic and / or chemical treatment of the basic structure 10 and / or the treatment of the basic structure 10 with a laser.
• this comprises a partial lacquer or plastic layer 31 in which mineral particles 32 are embedded.
• the mineral particles 32 are in particular diamond particles and have a size in the nanometer or micrometer range.
• the sizes of the individual mineral particles 32 can be different or essentially the same.
• the mineral particles 32 preferably have a volume fraction of at least 50% based on the volume of the partial lacquer or plastic layer 31 with mineral particles 32 embedded therein.
• the partial lacquer or plastic layer 31 is a plastic layer, then this preferably comprises polyetheretherketone or consists of polyetheretherketone.
• the press plate 1 of the second exemplary embodiment comprises a further lacquer or plastic layer, which is designed as a full-area lacquer or plastic layer 35.
• further mineral particles 36 can be embedded in the full-surface lacquer or plastic layer 35.
• the further mineral particles 36 are in particular further diamond particles with a size in the micro or nano range.
• the full-area lacquer or plastic layer 35 can be arranged directly on the basic structure 10.
• the second exemplary embodiment of the press plate 1 shown in FIG. 3 comprises an indicator layer 33 which, in the case of the present exemplary embodiment, is arranged directly on the basic structure 10.
• the full-area lacquer or plastic layer 11 is in turn arranged directly on the indicator layer 33.
• the indicator layer 33 is a lacquer or plastic layer or preferably a metal layer in which particles 34 having optical properties are embedded, so that the indicator layer 33 is a has a corresponding optical property that differs from the optical property of the partial lacquer or plastic layer 32 or the full-area lacquer or plastic layer 35.
• the particles 34 can be mineral particles, in particular diamond particles.
• the particles 34 of the indicator layer 33 are, for example, colored particles, so that the indicator layer 33 has a corresponding color, and / or fluorescent particles, so that the indicator layer 33 has fluorescent properties.
• the partial lacquer or plastic layer 31 with the mineral particles 32 embedded therein is only in predetermined areas 37, which are assigned to the elevations 4 or predetermined elevations 4 of the pressing surface 2, on the base structure 10, in particular directly on the full-surface lacquer. or plastic layer 35 arranged.
• the press plate 1 according to the second exemplary embodiment was produced in particular as a function of the image data assigned to the structure of the press surface 1.
• the pressing surface 2 is in particular assigned to a natural material such as wood or stone.
• a natural material such as wood or stone.
• an original for example a piece of wood, is scanned in order to obtain image data.
• image data include, in particular, information about the structure that the press surface should have.
• the image data obtained as a result of the scanning can be edited manually, for example, in order to obtain the image data assigned to the structure of the press surface 2.
• the press plate 1 of the second exemplary embodiment was produced, for example, by applying the indicator layer 33 to the basic structure 10 using a chemical or a galvanic process with the addition of the particles 34.
• the indicator layer 33 was then coated with the full-area lacquer or plastic layer 35 with the addition of the further mineral particles 36.
• This coating also includes, in particular, hardening of the full-surface lacquer or plastic layer 35, for example by means of UV irradiation, or by means of electron beams or laser hardening.
• the full-surface lacquer or plastic layer 35 was then coated with the partial lacquer or plastic layer 31 with the addition of mineral particles 32 as a function of the image data assigned to the structure of the press surface 1.
• This coating also includes, in particular, hardening of the partial lacquer or plastic layer 31, e.g. by UV radiation, or by electron beam or laser hardening.
• the full-surface lacquer or plastic layer 35 and the partial lacquer and plastic layer 31 each have degrees of gloss. These two degrees of gloss are preferably different, so that the surface of the workpiece produced with the press plate 1 also has areas of different degrees of gloss.
• the different degrees of gloss of the full-surface and partial lacquer or plastic layers 35, 31 can be achieved, for example, by different hardening or by exposure to different temperatures.

Landscapes

• Engineering & Computer Science (AREA)
• Mechanical Engineering (AREA)
• Laminated Bodies (AREA)
• Casting Or Compression Moulding Of Plastics Or The Like (AREA)
• Application Of Or Painting With Fluid Materials (AREA)
• Other Surface Treatments For Metallic Materials (AREA)
• Shaping Of Tube Ends By Bending Or Straightening (AREA)

Applications Claiming Priority (2)

Publications (1)

Family

ID=72915809

Family Applications (1)

Country Status (5)

Families Citing this family (4)

Family Cites Families (19)

• 2019
  • 2019-10-15 DE DE102019127659.4A patent/DE102019127659A1/de active Pending
• 2020
  • 2020-10-12 US US17/769,102 patent/US12076956B2/en active Active
  • 2020-10-12 WO PCT/EP2020/078577 patent/WO2021074064A1/de active Application Filing
  • 2020-10-12 EP EP20792948.0A patent/EP4045306A1/de active Pending
  • 2020-10-12 CN CN202080072587.0A patent/CN114555350A/zh active Pending

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