• 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:
    The invention relates to a method for manufacturing a watchmaking component or jeweler, said component being manufactured in a first material, the method comprising the following steps: providing the component, the latter having undergone at the latest during this step, a treatment for combining the component with a chromic element, said chromatic element being composed of at least one pigment capable of reacting to a supply of energy and a matrix for binding said pigment; placing said component in a power supply device capable of providing at least locally energy to said component; using the power supply apparatus according to a predefined operating program to provide at least locally energy to said chromium element so as to cause a reaction of its pigment; remove the component from the power supply.
    公开号:CH711818A2
    申请号:CH01744/15
    申请日:2015-11-30
    公开日:2017-05-31
    发明作者:François Nicolas
    申请人:Swatch Group Res & Dev Ltd;
    IPC主号:
    专利说明:

    Description: [0001] The invention relates to a method for manufacturing a watch component, said watch component being made of a first material.
    BACKGROUND
    It is currently known several solutions to produce colored components for making timepieces with multiple colors.
    A first solution is to tint the material in the mass. For this, the material, which generally is a plastic-type material or a derivative thereof, is mixed with a dye when in a liquid form. After mixing, the liquid form material is injected into molds to form the components.
    A second solution is to provide the component manufactured by injection or machining and to apply a coating. Such a coating may be in the form of a paint or an ink.
    However, a disadvantage of these technologies is that they pose manufacturing process problems. Indeed, the transition from one color to another requires cleaning operations between the different colors without eliminating the risk of pollution between the different colors.
    The realization of specific patterns such as writing requires the realization of a decoration having the desired shape which is assembled to the component. For example, the component comprises a recess having a shape identical to that of the decor so that the latter can be inserted therein.
    The disadvantage of this method is that it is complex to implement because it requires specific molds.
    The personalization can also be done via the use of processes such as screen printing or pad printing, but these require the use of tools (screen printing or pad printing) that need to be changed for the realization of different reasons. In addition, tooling is required for each desired color on the decoration. The tools must also require cleaning and maintenance between each batch of manufacture.
    Another means is digital printing, but this technique which requires an expensive machine for the industry can be applied only on substrates in 2 dimensions (dials, simple bracelets) and is not valid for components with more complex shapes.
    SUMMARY OF THE INVENTION
    The invention relates to a method of manufacturing a component whose coloring can be whole or selective and easily adapted.
    For this purpose, the invention consists of a method of manufacturing a watchmaking component or jeweler, said component being manufactured in a first material, the method comprising the following steps: - to bring the component, the latter having undergone at the latest in this step, a treatment for combining the component with a chromic element, said chromic element being constituted by at least one pigment capable of reacting to a supply of energy and a matrix for binding said pigment; - placing said component in a power supply device capable of providing at least locally energy to said component; - Use the power supply device according to a predefined operating program to provide at least locally energy to said chromium element so as to cause a reaction of its pigment; - Remove the component from the power supply device.
    In a first advantageous embodiment, the pigment is of the photochromic type.
    In a second advantageous embodiment, the pigment is of the thermochromic type.
    In a third advantageous embodiment, the pigment is capable of passing from a first color to a second color, the hue of the second color depending on the level of energy provided.
    In a fourth advantageous embodiment, the pigment used is capable of passing from a first color to at least one second or a third color, the passage to the second color or to the third color depending on the energy level. brought.
    In another advantageous embodiment, the chromic element is a compound of several pigments, each pigment being chosen to react at a specific energy level.
    In another advantageous embodiment, the compound is a mixture of three pigments, a red pigment, a yellow pigment and a blue pigment.
    We can decide for example to react locally some "pigments" to create a touch of red and then react a few others to give a touch of yellow to create additive combination an orange.
    In another advantageous embodiment, the matrix is of the hard lacquer type consisting of a binder in which the pigment is mixed, this binder i chosen from the family of acrylics, copolymers of acrylics or polyurethanes, a polycarboxylic acid salt dispersant, a benzoate plasticizer, a solvent selected from the family of glycols or esters.
    In another advantageous embodiment, the matrix is of the type lacquer flexible consists of a binder in which the pigment is mixed, said binder is selected from the family of silicones or polyurethanes.
    In another advantageous embodiment, the matrix is of the ink type consisting of a binder selected from the family of acrylics or polyurethanes or silicones; a polycarboxylic acid salt dispersant or anti-flocculant, a sulfonamide-type plasticizer and adhesion promoter and a solvent selected from the family of glycols or esters.
    In another advantageous embodiment, the first material and the matrix form only one, so that the pigment can be directly integrated into said component.
    In another advantageous embodiment, the chromic element is a layer at least partially deposited on the surface of said component.
    In another advantageous embodiment, the chromatic element is in the form of an insert.
    In another advantageous embodiment, the energy supply apparatus is arranged to provide light energy.
    In another advantageous embodiment, the energy supply apparatus is arranged to provide a thermal energy.
    In another advantageous embodiment, the energy supply apparatus is arranged to supply the energy at a precise point.
    In another advantageous embodiment, the energy supply apparatus comprises an enclosure in which the component is placed, said apparatus being arranged to distribute the energy homogeneously throughout the enclosure.
    The invention further relates to a watch component selected from the list comprising: bracelet, dial, bezel, middle part, bridge, cog, needle, clasp, crown, pushers or a jewelry component selected from the list comprising: buckle ear, bracelet, ring, pendant, necklace, cufflink, brooch.
    The invention further relates to a timepiece comprising at least one watch component according to the invention.
    BRIEF DESCRIPTION OF THE FIGURES
    The advantages of such a covering element will become clear from reading the description which follows and examining the drawing which illustrates it by way of example and in which: FIG. 1 schematically shows a portable object as a timepiece according to the present invention; figs. 2-5 schematically show various embodiments of the present invention; fig. Figure 6 schematically shows a first embodiment of the present invention; fig. 7 schematically represents a second embodiment of the present invention.
    DETAILED DESCRIPTION
    In FIG. 1 is shown a portable object 1 according to the invention, such a portable object is here in the form of a timepiece. Such a timepiece comprises a housing 2 closed by an ice 3, this housing 2 forms a housing in which a watch module, electronic or mechanical or electromechanical is arranged. The housing 2 may also include an integrated or rotating bezel 2a. This watch module provides at least one piece of information to a display module comprising, for example, a dial 4 and needles 5.
    This case 2 is also provided with pairs of horns 6 in order to attach a bracelet 7, the latter may be in the form of two strands or a single strand attached by each end to a pair of horns 6 .
    Such a portable object 1 is therefore provided with a multitude of customizable watch components 10 which can be for example the bracelet, the case, the bezel, or the dial.
    According to the invention, this customization is irreversible and possible by the combined use of a chromic element 12 and a novel manufacturing process.
    In a first step, the method consists in providing the component that will be colored. To do this, the component will have undergone at the latest during this first step, a transformation allowing the component to be combined with the chromatic element 12.
    This chromatic element 12 is an element that reacts following an energy input and which consists of a pigment associated with a matrix.
    The pigment used may be of the photochromic type or the thermochromic type. In the case of a photochromic pigment, the color change is made following a contribution of light energy. This light energy provided by a source of natural or artificial light excites the molecules of the pigment that react then. This reaction consists of a color change.
    In the case of a thermochromic pigment, the color change is following a thermal energy input. This thermal energy is provided by a natural heat source such as the sun or the human or artificial body. This thermal energy excites the pigment molecules that react then. This reaction consists of a color change.
    In the case of the present invention which consists of coloring components 10, the pigments used will be irreversible type that is to say that the color change is permanent. It is understood that the supply of energy is sufficient to change the color and that stopping the energy supply does not result in a return to the initial color of the pigments used.
    The matrix of chromic element 12 consists of a support in which the pigment is mixed so as to obtain a chromic element having a consistency allowing it to be combined with the component.
    In a first embodiment, the matrix is a matrix of the lacquer or ink type.
    In the case of a so-called hard lacquer, the matrix may be derived from the family of acrylics or copolymers of acrylics for high resistance to scratching and UV or a polyurethane binder for high abrasion resistance. , a polycarboxylic acid salt type dispersant, a benzoate type plasticizer, a glycol or ester type solvent and other additives as Anti-UV agents for polyurethane to prevent degradation of the polymer.
    In the case of a so-called flexible lacquer, the matrix will be derived from the family of silicones or polyurethanes.
    In the case of an ink, the matrix is derived from the family of acrylics for high UV resistance and high transparency or family of polyurethanes for high abrasion resistance or a silicone ink for flexible substrates; a polycarboxylic acid salt-type dispersant or antiflocculant, a sulfonamide-type plasticizer and adhesion promoter and a glycol or ester-type solvent.
    This matrix is in the form of flexible lacquer or ink allows, after manufacture of the component 10, to have a step in which said component 10 is covered with a layer 13 of this flexible lacquer or ink as visible at fig. 2. This layer 13 of ink or lacquer may be deposited by a spray or by passage in a bath or other suitable method.
    In a second embodiment, the matrix is an insert 14, visible in FIGS. 3 and 4, housed in a housing component 10 or the matrix is the component itself as visible in FIG. 5. Indeed, in this case, the matrix is the material that is used for the manufacture of the component. Generally, such a material is of the plastic type and is easy to inject or overmold. Such a matrix may be of the thermoplastic type such as, for example, an acrylonitrile butadiene styrene, polyamide or polymethylacrylate type resin, a modified / graft copolymer dispersing and compatibilizing agent, a benzoate or sulphonamide type plasticizer, thermosetting like a epoxy type resin, acrylic or thermoplastic elastomer polyurethane such as a polyurethane type resin.
    The matrix may also be of the vulcanized elastomer type, by injection, overmoulding or compression, such as, for example, an elastomeric resin of nitrile butadiene type or hydrogenated nitrile butadiene or elastomeric fluoropolymer, or silicone, a vulcanization system adapted to the selected resin. such as sulfur and vulcanization accelerators such as thiurams or peroxides and its derivatives, optional coupling agents (silane type).
    In this case, the matrix material and the pigment are mixed before being shaped by conventional injection molding or overmolding techniques. The result is a finished component, of the plastic type, which directly integrates the pigment.
    When combined with the pigment, the components are stored until the next step begins.
    In a second step, the component combined with the chromic element is placed in a coloring apparatus. This coloring device depends on the technology used, that is to say, the type of pigment used but also the desired embodiment.
    According to a first embodiment, the color of the component is total that is to say that the entire surface of the component is colored.
    According to a second embodiment, the coloration of the component is partial, that is to say that the coloration is performed only on certain parts in a predefined pattern.
    However, according to the embodiment, the apparatus used for the supply of energy to the pigment differs.
    For the first embodiment, an apparatus for a homogeneous energy radiation as shown in FIG. 6 from all directions will be used. This device can be in the form of an enclosure in which the component is placed, this enclosure is designed so that the inner walls that compose it are all provided with energy emitters allowing the total and homogeneous diffusion of the energy.
    For the second embodiment, an apparatus for focusing energy radiation will be used as shown in FIG. 7. This device can be in the form of a robot comprising an articulated arm on which is fixed a power-generating head. This energy emitting head is designed to provide energy locally.
    In a third step, the coloring of the component takes place. This coloring step consists of operating the apparatus used for the energy supply according to a specific program.
    Indeed, it is cleverly provided that the chromic element can react gradually. It is understood that the chromic element reacts differently according to the level of energy provided so that the more energy is supplied and the more the reaction of the chromic element, that is to say its pigment is important and therefore more the coloring is intense.
    In the case of a chromic element comprising a photochromic pigment, the color variation depends on the power emitted by the light source and the energy received by this chromic element at any point. Thus, as long as the energy received does not affect the matrix or the pigment, the higher the emitted light power, the stronger and faster the color variation.
    In the case of a chromic element comprising a thermochromic pigment, the color variation depends on the thermal energy it receives. This thermal energy corresponds to a rise in temperature. Thus, the higher the heat intensity is intense and the color variation is strong and fast.
    Therefore, the program controlling the apparatus used for the supply of energy is designed to provide the amount of energy required for the total or partial color of the component by adjusting the parameters of duration of supply and intensity as well as the localization of the contribution, for the partial stains.
    Thus, in the case of a total color, the component is placed in the enclosure forming the energy supply apparatus whose inner walls are provided with energy emitters. The color program then adjusts the intensity and duration of exposure so that the entire surface of the component changes from one color to another.
    Thus, in the case of partial coloring, the component is placed under the robot forming the energy supply device. The coloring program then adjusts the intensity and duration of exposure but also the position of the energy-emitting head mounted on an articulated arm. This adjustment helps bring energy to the precise spot where the coloring is to be done. Indeed, the partial staining technique is mainly used for making patterns such as inscriptions or drawings. Therefore, it is necessary to have a high accuracy.
    It may be envisaged that, depending on the technology used, the focus point will be more or less wide to change the color on a larger or smaller portion.
    In the case where the component material directly incorporates the pigments, an advantage is the durability of the color since the disadvantages of deterioration of a paint layer are not present.
    Once the total or partial coloring is performed, a next step is to remove the component of the power supply device and store it.
    In an advantageous variant, the chromic element is designed to allow a plurality of color variations. This variant uses a chromic element whose compound is provided with a plurality of pigments, each pigment making it possible to have a color. Thus, it is possible to have a compound which, depending on the energy input, allows different color variations. This variation of the color is not a variation of the intensity of the color, that is to say a color varying from a pale hue to a dazzling hue but a pigment capable of passing from a gray hue to a hue. blue hue or to a red hue or to a pink hue depending on the energy input. For example, the compound may be an RJB compound, that is to say comprise a red pigment, a yellow pigment and a blue pigment.
    Such a variant advantageously makes it possible to improve the flexibility of the manufacturing process. Indeed, since it is possible to have a plurality of different colors according to the energy input, it becomes possible to produce the component to a desired color by changing only the energy input. Consequently, a manufacturing process is obtained which, from a single base, makes it possible to obtain different colorings as a function of the energy input.
    Another advantage of this variant is that it allows further customization. Indeed, if the present invention allows a partial or selective staining and this variant allows a choice of the staining color according to the energy input, then it becomes possible to color the component so that the latter presents a multitude of colors.
    In another variant, it is conceivable that the method according to the invention is operated during the sale of the portable object comprising the component. Indeed, in the case of a watch, it may be advantageous to offer a personalization service on demand. This on-demand customization service is to allow customers to change the aesthetic appearance of various components of the portable object according to the invention directly at the time of sale. For example, in the case of a watch, this variant allows the customer who comes to buy his watch to have the possibility
    权利要求:
    Claims (21)
    [1]
    to change the appearance of his watch to make it unique. The point of sale is then equipped with at least one energy supply device used to modify locally or totally the color of one of the components of said watch. It will be understood that various modifications and / or improvements and / or combinations obvious to those skilled in the art can be made to the various embodiments of the invention described above without departing from the scope of the invention defined by the appended claims. Of course, the component according to the invention may be a jeweler component selected from the list comprising: earring, bracelet, ring, pendant, necklace, cufflink, brooch. claims
    1. A method of manufacturing a component (10) watchmaker or jeweler, said component being made of a first material, the method comprising the following steps: - get the component, the latter having undergone at the latest during this step, a process for combining the component with a chromic element (12), said chromatic element being composed of at least one pigment capable of reacting to a supply of energy and a matrix for binding said pigment; - placing said component in a power supply device capable of providing at least locally energy to said component; - Use the power supply device according to a predefined operating program to provide at least locally energy to said chromium element so as to cause a reaction of its pigment; - Remove the component from the power supply device.
    [2]
    2. Method according to claim 1, characterized in that the chromic element (12) is a compound of several pigments, each pigment being chosen to react to a specific energy level.
    [3]
    3. Method according to claims 1 or 2, characterized in that the pigment is of the photochromic type.
    [4]
    4. Method according to claims 1 or 2, characterized in that the pigment is of the thermochromic type
    [5]
    5. Method according to one of the preceding claims, characterized in that the pigment is able to pass from a first color to a second color, the hue of the second color depending on the energy level provided.
    [6]
    6. Method according to claim 2, characterized in that the compound is a mixture of three pigments, a red pigment, a yellow pigment and a blue pigment.
    [7]
    7. Method according to one of the preceding claims, characterized in that the matrix is of the hard lacquer type consisting of a binder in which the pigment is mixed, this binder being selected from the family of acrylics, copolymers of acrylic or polyurethanes, a polycarboxylic acid salt type dispersant, a benzoate type plasticizer, a solvent selected from the family of glycols or esters.
    [8]
    8. Method according to one of claims 1 to 7, characterized in that the matrix is of the flexible lacquer type consisting of a binder in which the pigment is mixed, said binder being selected from the family of silicones or polyurethanes.
    [9]
    9. Method according to one of claims 1 to 7, characterized in that the matrix is of the ink type consisting of a binder selected from the family of acrylics or polyurethanes or silicones; a polycarboxylic acid salt-type dispersant or anti-flocculant, a sulfonamide-type plasticizer and adhesion promoter and a solvent selected from the family of glycols or esters.
    [10]
    10. Method according to one of claims 1 to 8, characterized in that the first material and the matrix form only one so that the pigment can be directly integrated with said component.
    [11]
    11. The method of claim 9, characterized in that the chromic element is a layer (13) at least partially deposited on the surface of said component.
    [12]
    12. Method according to claims 7 or 8, characterized in that the chromic element is in the form of an insert (14).
    [13]
    13. The method of claim 3, characterized in that the energy supply apparatus is arranged to provide a light energy.
    [14]
    14. The method of claim 4, characterized in that the energy supply apparatus is arranged to provide a thermal energy.
    [15]
    15. Method according to one of the preceding claims, characterized in that the energy supply apparatus is arranged to provide the energy at a specific point.
    [16]
    16. Method according to one of claims 1 to 14, characterized in that the energy supply apparatus comprises an enclosure in which the component is placed, said apparatus being arranged to distribute the energy homogeneously in any the enclosure.
    [17]
    17. Watchmaking component characterized in that it is manufactured using the method according to one of the preceding claims.
    [18]
    18. Watchmaking component according to claim 17, characterized in that it is selected from the list comprising: casing (2), bracelet (7), dial (4), bezel (2a), middle part, bridge, cog, needle ( 5), clasp, crown, pusher.
    [19]
    19. Jewelery component characterized in that it is manufactured using the method according to one of claims 1 to 16.
    [20]
    20. Jewelery component according to claim 19, characterized in that it is selected from the list comprising: earring, bracelet, ring, pendant, necklace, cufflink, brooch.
    [21]
    21. Timepiece characterized in that it comprises at least one watch component according to claims 17 or 18.
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    同族专利:
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    CH711818B1|2020-07-31|
    引用文献:
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    CN112462588A|2019-09-09|2021-03-09|斯沃奇集团研究和开发有限公司|Dial and method for manufacturing a watch dial|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    CH01744/15A|CH711818B1|2015-11-30|2015-11-30|A process for the selective decoration of a watchmaking or jewelery component.|CH01744/15A| CH711818B1|2015-11-30|2015-11-30|A process for the selective decoration of a watchmaking or jewelery component.|
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