FR3067030B1 - DEVICE AND METHOD FOR PRODUCING AN OBJECT - Google Patents

Abstract

Device (100) for producing an object, comprising at least: a layer (102) of photocrosslinkable material comprising at least one polymer precursor having at least one function capable of reacting with at least one photoinitiator mixed with the polymer precursor , the photoinitiator being able to trigger a polymerization of the photocrosslinkable material during an exposure of the photocrosslinkable material to a light comprising at least one wavelength of the visible range; a protective case (106) in which the photocurable material layer is disposed and which is opaque or reflective of at least said wavelength.

Description

DEVICE AND METHOD FOR PRODUCING AN OBJECT

DESCRIPTION

TECHNICAL FIELD AND PRIOR ART The invention relates to the field of producing objects based on polymers, and in particular stencils, masks or stamps, and in particular a device for producing a polymer object, and also a method of producing an object from such a device. The invention is advantageously applied to the production of stencils and / or masks and / or stamps intended for producing shapes and / or drawings and / or text on any type of support: paper, walls, furniture, nails, skin, lips, etc.

A mask or stencil is an element intended to be arranged on a support and having one or more solid parts and one or more recessed parts through which a product (for example an ink, a cosmetic product, etc.) is intended to be applied. The product is then applied to the support in a pattern defined by the solid portion (s) and the recessed portion (s) of the mask or stencil. The pattern to be represented by the product is therefore defined negatively by the mask or the stencil.

A tampon is an element for applying to a carrier a product in a pattern positively defined by one or more solid portions of the tampon which directly apply the product to the support.

To make a stencil or a mask, manual work, sometimes important, drawing and cutting is necessary. The quality of the stencil or mask produced depends essentially on the ability of the person performing it.

It is possible to use professional tools, such as laser cutting tools, to obtain a stencil or mask of good quality. However, such tools are not intended for the general public because of their cost.

There are also tools for the general public to cut stencils and masks. However, the shapes that can be obtained are not customizable.

Similar problems are also found for the production of buffers, and more generally objects of substantially planar shapes.

STATEMENT OF THE INVENTION

An object of the present invention is to provide a device for the realization, individually, of an object, with a personalized pattern, which is accessible to the general public, low cost and with excellent quality / accuracy whatever the skill of the user.

For this, the invention proposes a device for producing an object, comprising at least: a layer of photocrosslinkable material comprising at least one polymer precursor having at least one function capable of reacting with at least one photoinitiator mixed with the precursor of polymer, the photoinitiator being able to trigger a polymerization of the photocrosslinkable material during an exposure of the photocrosslinkable material to a light comprising at least one wavelength of the visible range; a protective case in which the photocurable material layer is disposed and which is opaque or reflective of at least said wavelength. The invention therefore proposes a device incorporating a photocurable material layer incorporating a photoinitiator allowing, when exposed to at least one wavelength of the visible range, to trigger the photocrosslinking phenomenon, here a polymerization. The regions of the photocrosslinkable material exposed to this wavelength then turn into regions of polymeric material forming the solid parts of the object produced. The protective case makes it possible to avoid a triggering of the polymerization phenomenon before a desired exposure of the photo-crosslinkable material to the wavelength (s) capable of initiating the polymerization.

This device is particularly suitable for being applied on a screen forming the light source triggering the polymerization. Thus, the pattern of the realized object may correspond to the pattern displayed on this screen during the polymerization phase. An object such as a mask and / or a stencil and / or a buffer of high accuracy can thus be achieved, without having to use expensive and / or cumbersome and / or dedicated (non-personalized) professional tools.

In addition, when the object produced corresponds to a stencil and / or a mask and / or a buffer, it is compatible with a large number of ink or paint dispensing systems, for example of ink-pad type.

Compared with irradiation with a wavelength of the UV range, the use of a wavelength of the visible range to trigger the polymerization of the photocurable material allows rapid irradiation of the layer of photocrosslinkable material even when this layer is thick. The photons of the visible range are those emitted by the screen with which photocrosslinking can be implemented.

For example, for a layer approximately 3 cm thick, a very short exposure time may be sufficient if the photocrosslinkable material is previously partially polymerized. The expression "mask and / or stencil and / or stamp" is used to define the fact that the realized object can correspond to a mask, or to a stencil, or to a stamp, or to an element having several parts forming each a mask or a stencil or a buffer, these parts being for example arranged next to each other.

In general, the object produced has a substantially flat shape, with a thickness for example of between about 1 mm and 30 mm. This object may correspond for example to an earring, or an object intended to be painted, glued, or decorated.

The polymer precursor may be of the acrylate and / or polysaturated acrylate and / or acrylate and / or methacrylate silicone type, and / or polyurethane with at least one acrylate and / or methacrylate and / or isocyanate function (for example 2-isocyanatoethyl methacrylate) and / or the photoinitiator may comprise at least camphorquinone and / or thioxanthone, associated with at least one aminated co-initiator. The aminated co-initiator may comprise, for example, 2- (dimethylamino) methacrylate and / or L-arginine and / or N-phenylglycine.

Compared to a photo-crosslinking carried out with UV light, the use of a light of the visible range to achieve the photo-crosslinking is much safer for the user or people near the device in this photo -creation, especially to avoid damaging the eyes of this or these people. To further improve the safety of the person using the device during the exposure of the photocurable material to light and possible other persons in the vicinity of the device, the photoinitiator may be selected from those activated by one or more lengths of light. wave of the visible range and greater than about 400 nm, preferably greater than about 420 nm. For example, camphorquinone associated with at least one aminated co-initiator is activatable with a wavelength between about 470 nm and 490 nm, and the thioxanthone associated with at least one aminated co-initiator is activatable with a length of wave between about 420 nm and 450 nm.

The photocrosslinkable material may comprise at least one solvent comprising methyl ethyl ketone and / or acetone and / or isopropyl acetate and / or butyl acetate and ethyl and / or dichloromethane and or chloroform.

The photo-crosslinkable material may be partially polymerized. This makes it possible to shorten the exposure time of the photocurable material necessary for producing the object. This also makes it possible to increase the viscosity of the photocurable material (for example at least 400 cp), which makes it more easily manipulable during the production of the device.

Advantageously, the photo-crosslinkable material may be in the solid state at ambient pressure (approximately 105 Pa) and at an ambient temperature (approximately 25 ° C) or less than or equal to approximately 80 ° C. In the protective case, such a layer of photocrosslinkable material in the solid state is easily manipulated, flexible and is not fragile.

When the object produced corresponds to a mask and / or a stencil and / or a buffer, the main function of the mask and / or the stencil and / or the buffer obtained is to be able to reproduce a pattern, for example a lipprint, with maximum detail. When the element produced corresponds to a buffer, it is possible for the buffer obtained to be provided with an additional function of the sponge and / or reservoir type with respect to a product intended to be applied via this buffer, for example example for the application of a cosmetic product such as a lipstick or ink, so that this buffer forms an application element of this ink-pad type product. Thus, after the crosslinking of the photocrosslinkable material, the buffer obtained can be "loaded", or soaked in product to be deposited. For this, the layer of photocrosslinkable material may comprise at least one non-crosslinkable pore-forming agent. With such a pore-forming agent present within the photocrosslinkable material, pores are formed within the polymer obtained, these pores then serving as a product reservoir to be applied. This can also apply for objects other than buffers. The pore-forming agent is, for example, water-soluble and can thus be removed after photopolymerization of the photocrosslinkable material, for example by a step of rinsing the resulting polymer with water. The blowing agent is for example of polymeric nature and may comprise PVA and / or PVP and / or polyalkyloxazoline and / or PEG and / or hydroxycellulose and / or sugar.

The fact of initiating the polymerization of the photocrosslinkable material with one or more wavelengths of the visible range makes it possible to introduce the porogenic agent into the photocrosslinkable material without having a refractive index agreement to be respected. The pore-forming agent is advantageously soluble in a chlorinated solvent and may be mixed with the acrylate, methacrylate and / or acrylate and methacrylate silicone bases of the photocrosslinkable material during the manufacture of the layer of photocrosslinkable material.

The presence of the pore-forming agent in the photo-crosslinkable material also makes it easier to demold the polymer obtained because of the flexibility conferred by the presence of the pores in the polymer.

In order to limit the impact on the mechanical strength of the object produced, the concentration of the pore-forming agent in the photo-crosslinkable material is preferably less than or equal to approximately 10% of the total mass of the photocrosslinkable material. The pore size and the continuity of the porous network obtained can be modulated by the molecular weight of the pore-forming agent used.

After the crosslinking of the photocrosslinkable material, a polymer rinsing step makes it possible to eliminate the byproducts resulting from the photoactivation (photoactivators and associated catalysts) and the pore-producing agent (s) possibly present, thus allowing a safe contact of the polymer with the skin and mucous membranes. However, the photoinitiators and the optional pore-forming agent (s) are advantageously chosen as non-toxic so that only partial cleaning or non-cleaning of the object obtained at the end of the crosslinking is not toxic.

In addition, it is possible to provide that a product subsequently used with the object obtained comprises chemical compounds for removing particles of photocrosslinkable material which have not been polymerized and which, when they are not water-soluble, are not removed by rinsing with pure water.

The photocurable material layer may have a thickness of between about 1 mm and 30 mm. The protective case may comprise at least one metal layer capable of reflecting at least said wavelength. This metal layer has for example a thickness greater than or equal to about 100 nm, and advantageously comprises aluminum.

The device may further comprise a layer of material transparent to at least said wavelength and arranged such that it passes through the light during the exposure of the photocrosslinkable material to this light. The layer of transparent material can thus form a protective layer between the layer of photocrosslinkable material and the light source used for the polymerization of the photocrosslinkable material.

The layer of transparent material may in particular serve to protect the screen serving as light source during the exposure of the layer of photocrosslinkable material facing this screen (the layer of transparent material being intended to be arranged between the screen and the layer of photocrosslinkable material during this exposure). The expression "transparent vis-à-vis at least said wavelength" means that at least a portion of the light, for example at least 80% and advantageously about 100% of the light, at this length of light. wave can pass through the layer of transparent material. The greater the transparency of this layer with respect to the wavelength (s) used for the polymerization of the photocrosslinkable material, the shorter the exposure time of the photocurable material at this wavelength (s) will be reduced to obtain the object.

At least one inner face of the protective case opposite which layer is disposed photocrosslinkable material can form an optically reflective face at least vis-à-vis said wavelength. Such a reflective inner face reduces the exposure time of the photocurable material at this wavelength to form the object. The expression "optically reflecting face at least vis-à-vis said wavelength" means that this face is able to reflect at least 50% of the light at this wavelength, and return it to the photocrosslinkable material . The reflection ratio of this face can be adapted according to the thickness of the photocurable material layer and the maximum irradiation time at which the photocrosslinkable material is intended to be exposed. The protective case may include a front portion (at which the light source is to be disposed) and / or a removable rear portion. A removable front portion of the protective case can thus be easily removed when exposure of the photocurable material to the polymerization wavelength is to begin. A removable rear portion of the protective case can thus be easily removed when the crosslinking of the photocurable material is complete, and provides easy access to the object made from the rear of the device, which allows for example to pay a rinse liquid directly on the object obtained from the back of the protective case.

The device may further comprise a hermetic package opaque or reflective vis-à-vis at least said wavelength and wherein are disposed at least the layer of photocrosslinkable material and the protective case. Such hermetic packaging makes it possible, for example, to preserve the photocrosslinkable material for several months under vacuum or in a protective atmosphere before it is used. The invention also relates to a method of producing an object, comprising at least the implementation of the following steps: - implementation of a device as described above with respect to at least one screen of a an electronic device such that the photocurable material layer is exposed to the screen; - Displaying, for a predetermined duration, a crosslinking image comprising one or more first zones and one or more second zones such that said wavelength is emitted only from the second zone or zones and that only the or the portions of the layer of photocurable material disposed opposite the second zone or zones are polymerized, thereby forming the object.

This method therefore proposes to use a screen, for example that of a smartphone, a computer tablet, a computer or a television, serving as a controlled light source for curing a pattern in a photosensitive material and obtaining an object whose contours and / or patterns are precisely defined by virtue of the differentiation between the first and second zones of the crosslinking image, the wavelength triggering the crosslinking only being emitted from the second zone or zones. The pattern is transferred to the photosensitive material directly through the screen that displays this pattern. Thus, the result obtained does not depend on the ability of the user because this method does not use manual tools to achieve this object. This process is simple, easy to implement for the user and inexpensive.

The duration during which the image is displayed by the screen corresponds to the duration during which the photocrosslinkable material is polymerized, or crosslinked. This duration is predetermined because it corresponds to a duration greater than or equal to the duration for polymerizing the portions of the photocurable material layer receiving said wavelength. This duration can be fixed or variable depending on the thickness of the photocurable material layer, the desired hardness or the accuracy of the pattern produced. This duration also depends on the density of the photon flux emitted by the screen. The crosslinking image comprises one or more first regions which correspond for example to black areas of the image, from which said wavelength initiating the polymerization is not emitted. The crosslinking image also comprises one or more second zones, clear or colored, and for example of white or blue color, such that only the part or portions of the layer of photocrosslinkable material arranged opposite this or these second zones are entirely Polymerized The protective case of the device may include a removable front portion that can be removed after placing the device against the screen. A tab accessible from the outside of the case can for example be used to remove this removable front part.

The method may further comprise, prior to the display of the crosslinking image by the screen, the implementation of steps of: - creation or loading, in the electronic device, of a preliminary image, corresponding by example to a photograph and / or drawing, from which the object is intended to be realized; digital processing creating the crosslinking image from the preliminary image.

The creation of the preliminary image corresponds, for example, to the production of a photograph from a camera integrated in the electronic device. The loading of the preliminary image in the electronic device corresponds for example to a download of this preliminary image in a storage memory of the electronic device or associated with the electronic device. The protective case of the device may have a removable rear portion which is removed after the display of the crosslinking image by the screen, forming an access to the object from outside the device. The invention can be applied, for example, to the field of make-up, in particular for producing a mask and / or a stencil and / or a buffer for applying a cosmetic product such as lipstick, to the field of permanent or temporary tattooing, in the medical field, for example, to provide personalized protection for treatments such as laser treatments or for the application of liquid nitrogen, in the field of decoration for making stencils for drawing patterns, or in the field of painting or repair. vehicle body.

BRIEF DESCRIPTION OF THE DRAWINGS

The present invention will be better understood on reading the description of exemplary embodiments given purely by way of indication and in no way limiting, with reference to the appended drawings, in which: FIG. 1 schematically represents a device, object of the present invention, according to a particular embodiment; FIG. 2 represents the flowchart of a method for producing an object, object of the present invention, according to a particular embodiment; FIGS. 3A and 3B respectively represent a preliminary image and a crosslinking image used during a method of producing an object, object of the present invention, according to the particular embodiment; FIG. 4 represents a stencil obtained by implementing a production method, object of the present invention, according to the particular embodiment; FIG. 5 represents an applicator pad device in which a stencil made from the device according to the invention is used.

Identical, similar or equivalent parts of the different figures described below bear the same numerical references so as to facilitate the passage from one figure to another.

The different parts shown in the figures are not necessarily in a uniform scale, to make the figures more readable.

The different possibilities (variants and embodiments) must be understood as not being exclusive of each other and can be combined with one another.

DETAILED PRESENTATION OF PARTICULAR EMBODIMENTS

Referring firstly to Figure 1 which shows schematically a device 100 for producing an object, according to a particular embodiment.

The device 100 comprises a layer 102 of photocrosslinkable material from which the object is intended to be produced.

The photocrosslinkable material comprises at least one polymer precursor having at least one activatable function by at least one photoinitiator, and the photoinitiator for polymerizing the precursor when exposed to light including at least one wavelength of the visible range. The photocrosslinkable material is produced in the form of an advantageously homogeneous mixture of the polymer precursors with the photoinitiator, this mixture being produced without being exposed to or at the wavelengths to which the photoinitiator reacts, for example in the dark or in a light neutral.

By precursors of the polymeric material is meant monomers and / or oligomers and / or pre-polymers leading to the formation of the polymer, for example of the acrylate and / or polysaturated acrylate and / or silicone acrylate and / or methacrylate and / or or isocyanate, and / or polyurethane with at least one acrylate and / or methacrylate function. For example, these precursors comprise poly (ethylene glycol) methacrylate and / or poly (propylene glycol) dimethyl acrylate and / or poly (propylene glycol) diacrylate and / or poly (ethylene glycol) acrylate and / or polysiloxane acrylate and or methacrylate.

The photoinitiator is here able to be active or activated by the wavelengths of visible light, that is to say when exposed to at least one wavelength of between about 400 nm and 750 nm, so that the phenomenon of polymerization of the photocurable material occurs when the photocurable material is exposed to visible light. Alternatively, this photoinitiator may be active when exposed to only a portion, or at least one wavelength, of the visible range.

The photoinitiator is chosen such that it catalyzes the crosslinking of the polymer precursor during excitation in the visible range and for one or more wavelengths that can be emitted by a screen such as a smartphone screen, or a tablet, or a computer, or a TV. Advantageously, the photoinitiator is chosen such that the crosslinking of the material of the layer 102 to produce during an exposure of the photocurable material to the most energetic wavelengths among those of the visible spectrum, that is to say those corresponding to the blue or violet color (close to 400 nm). Such a photoinitiator is for example camphorquinone type which is very effective in the visible and very soluble in the solvent (s) used for producing the layer of photocrosslinkable material. Camphorquinones are associated with an aminated co-initiator, preferably 2- (dimethylamino) methacrylate and / or L-arginine and / or N-phenylglycine. All these products are not toxic for the living. The activation range is between about 470 nm and 490 nm, which is very advantageous. It is also possible to use, as amino co-initiator, thioxanthone which is also associated with at least one amino co-initiator such as one of those mentioned above. Such a co-initiator is activatable by wavelengths between about 420 nm and 450 nm.

By producing the photocurable material, one or more mixed solvents are used. These solvents are chosen, for example, from methyl ethyl ketone, acetone, isopropyl acetate, or butyl acetate and ethyl acetate. It is also possible to use chlorinated solvents such as dichloromethane and chloroform.

The proportion of solvents is such that these solvents represent between about 30% and 50% of the total mass of the photocrosslinkable material. These solvents are intended to be removed by drying or rinsing. Thus, the proportion of polymer precursors and photoinitiators (and any pore-forming agents as described below) used in the initial mixture of photocrosslinkable material is between about 70% and 50%. Advantageously, the proportion of solvents is reduced as much as possible so that drying or rinsing is carried out as quickly as possible.

After drying, the photoinitiators are present in the photo-crosslinkable material and represent between about 0.5% and 5% of the total mass of the photocrosslinkable material. When blowing agents are added (as described later), these agents may represent at most 10% of the total mass of the photocrosslinkable material. The remainder of the total mass of the photocurable material is formed by the photocrosslinkable elements, namely the photocrosslinkable polymer precursors forming between about 50% and 98%, and preferably between about 95% and 98% for storage reasons, the rest of the photocurable material. the total mass, and the complement in photocurable molecules. The photocurable molecules carry at least one crosslinkable function and serve to form the bonds within the polymer network. These molecules are for example trimethylol propane triacrylate, di (trimethylolpropane) tetracrylate, pentaerythritol tetracrylate, dipentaerythritolpenta / hexaacrylate, trimethylolopropane propoxylate triacrylate, or 1,6-hexanediol ethoxylate diacrylate.

Advantageously, the photocrosslinkable material of the layer 102 is already partially polymerized and / or crosslinked. Thus, during the production of the object, the time of exposure of this material to light is minimized to obtain the object. In addition, this makes it possible to increase the viscosity of this material so that it is in the form of an easily manipulable gel that does not flow during the production of the device 100. This viscosity is preferably greater than or equal to about 400 cp (centipoise) or mPa.s.

Advantageously, it is also possible for the layer 102 to be in the solid state at ambient pressure and at a temperature of less than or equal to about 80 ° C. The flexibility of the layer 102 is adjusted inter alia via the concentration of solvents used.

During the production of the device 100, the photocrosslinkable material is deposited so as to form the layer 102 having a thickness for example of between about 1 mm and 30 mm, on a layer 104. This layer 104 is intended to be arranged facing the screen which will be used to crosslink the material of the layer 102. Thus, the layer 104 is transparent at least vis-à-vis the wavelength or wavelengths that will be used for this crosslinking. This layer 104 serves to support the photocrosslinkable material which is not solid and in particular makes it possible to protect the screen vis-à-vis this material which could stick to the screen or leave traces, and also allows to pass the excitation light of the photoinitiator to trigger the polymerization reaction of the material of the layer 102.

The layers 102 and 104 are arranged in a protective case 106 surrounding these layers. This case 106 is opaque or reflective at least with respect to the wavelength or wavelengths triggering the crosslinking of the material of the layer 102, in order to protect this material until it is exposed to the light emitted by the screen. This case 106 can absorb or reflect all of the wavelength or wavelengths triggering the crosslinking of the material of the layer 102

Alternatively, it is possible that the device 100 does not include the layer 104, especially when the layer of photocrosslinkable material 102 is in the solid state. In this case, only the layer 102 can be arranged in the protective case 106.

Advantageously, a rear portion 108 of this case 106 has an inner surface (facing which the layer 102 is arranged) reflecting at least vis-à-vis the wavelength or wavelengths of the light used for the polymerization photocurable material. This accelerates the crosslinking that will be performed later. The counterpart is that for reasons of small dimensions, this light reflection can make the edges of these reasons less clear.

This case 106 also allows the precise positioning of the device 100 on the screen. In Figure 1, the device 100 is shown disposed on a screen 202 of an electronic device 200 which corresponds for example to a smartphone. The case 106 comprises for example adhesive edges 110 for this precise positioning. Prior to the disposition of the device 100 on the screen 202, the face of the case 106 comprising the adhesive edges 110 may be protected by a protective film. This protective film can be removed just before the positioning of the device 100 on the screen 202. The case 106 further comprises a lower portion 112, that is to say that which is disposed between the screen 202 and the layer 104, which is removable, for example pre-cut vis-à-vis the rest of the case 106. Thus, before and during the positioning of the device 100 on the screen 202, this lower portion 112 protects the layer 104 vis-à-vis -vis the outside light. After positioning the device 100 on the screen 202, this lower part 112 can be removed for example by means of a tab 114 protruding from the case 106 and which is secured to the lower part 112. By pulling on the tongue 114, the lower part 112 can be detached from the rest of the case 106, thus exposing the layer 104 to the screen 202 while maintaining the edges 110 of the case 106 which are in contact with the screen 202 and which prevents the exposure from the layer 102 to the external light.

This case 106 may also be such that the rear portion 108 is easily detachable from the rest of the case so that after exposure of the photocrosslinkable material of the layer 102 to the light emitted from the screen 202, it it is possible to easily remove the object obtained from the back of the case 106, without damaging this object and without dirtying the screen 202, and / or pouring a rinsing liquid on the object obtained from the back of the case 106 case.

Prior to its use on the screen 202, the device 100 may be placed in an opaque or reflective hermetic packaging, for example sealed under vacuum or in a controlled atmosphere (for example without oxygen) in order to avoid any degradation (in particular drying) of the photocrosslinkable material of the layer 102.

A method of producing an object implemented with the device 100 is described below with reference to FIG. 2. In the example described here, the object produced corresponds to a mask and / or a stencil and / or a tampon. In parallel with the general description of this method, a particular example of this method is also described below, this particular example allowing the realization of a stencil intended to be used for the application of a cosmetic product on the lips of a nobody.

During a first step 302, a preliminary image is first created or loaded into the device 200. This preliminary image, corresponding for example to a photograph or a drawing, comprises a visual representation of the shape and dimensions of the image. the object that will be realized. This preliminary image can correspond to an image stored in the memory of the device 200. The preliminary image can also be downloaded by the device 200 from a database or other remote electronic equipment or from an external memory connected to the device 200. It is also possible that this preliminary image corresponds to a photograph taken by a camera integrated in the device 200.

According to the particular example of this method, this first step 302 may consist of producing a photograph, via an integrated camera of the device 200 which corresponds for example to a smartphone or tablet, of the person's face, and in particular of the lips, on which the cosmetic product will be applied. This photograph can be more generally a photographic portrait or self-portrait made from the device 200. This photograph can also be downloaded or recorded on the device 200. Advantageously, this photograph can be taken via an application or software loaded onto the device 200 In order that the dimensions of the lips or the face appearing in the photograph correspond to the real dimensions of the lips of the person, it is possible that the photograph is taken by placing on the face of the person photographed a reference motif, corresponding for example to a sticker whose dimensions allow the application or software to perform a calibration of the captured image. The shape of this sticker can be round or any other form whose dimensions can be clearly determined by the application or the software.

This calibration can be applied to other examples of implementation of this method and is not limited to the production of a stencil for applying a cosmetic product to the lips. In addition, other means for calibrating the dimensions of any photographed object intended to serve as a model for the realization of the object can be envisaged, such as for example the display of a template by the screen 202 of the device 200 when of photography. The preliminary image can be retouched via the application or software before continuing the process. In the particular example of implementation, this retouch may consist of modifying the contour of the lips, or creating patterns (stripes, dots, etc.) on the lips so that these patterns stand out on the lips when the cosmetic product will be applied through the stencil made from this preliminary image.

To achieve the object, a crosslinking image is created from the preliminary image, in which the regions or areas of the preliminary image for forming the solid parts of the object are differentiated from those intended to form the parts. empty of the object. For this, the application or the software can perform a digital image processing to distinguish these different regions or areas (step 304). This digital processing may for example correspond to a transformation such that the regions of the preliminary image representing the parts of the object intended to be empty form first areas of the crosslinking image that are dark or black so that no light able to crosslink the material of the layer 102 is emitted from these first areas of the crosslinking image and therefore the photocrosslinkable material that will be facing these first areas is not polymerized. Further, the regions of the preliminary image representing the portions of the object to be solid form second areas of the crosslinking image that have at least one color other than black, for example white, so that the light is emitted from these second zones of the crosslinking image and therefore the photocurable material which will be opposite these second zones is polymerized. This digital processing may correspond for example to a transformation of the initial image which is a two-color image, for example in black and white (without intermediate gray).

Advantageously, the second or second zones of the crosslinking image may be blue in color (with a wavelength close to 400 nm) because the blue light is the one for which the photons are the most energetic. This therefore reduces the exposure time of the photocrosslinkable material to the crosslinking image to completely polymerize the object. As an illustration of the particular example described here, FIG. 3A represents the photographed image of the lips of a user, which corresponds to a preliminary image 401 obtained using the camera of a smartphone. FIG. 3B represents a crosslinking image 403 obtained after the digital processing implemented from the preliminary image 401 of FIG. 3A. This crosslinking image 403 comprises a first black zone 402 (corresponding to the photographed lips) representing the zone of the screen 202 which will not emit light in order not to polymerize the photocrosslinkable material which will be opposite this first zone 402. and a second white area 404 representing the area of the screen 202 that will emit light to polymerize the photocurable material facing said second area 404.

The device 100 is then placed on the screen 202, with the lower portion 112 disposed against the screen 202 (step 306). For this, the device 100 is removed from the sealed package. The protective film covering in particular the adhesive edges 110 is removed, then the device 100 is positioned against the screen 202. Finally, the removable lower portion 112 is removed by pulling on the tongue 114.

The crosslinking, or polymerization, of the photocrosslinkable material can then be started by displaying the screen 202 for a predetermined duration, the crosslinking image 403 illuminating only portions of photocrosslinkable material to be polymerized (step 308). Once this time has elapsed, the display of the crosslinking image 403 by the screen 202 can be stopped. The user is for example notified of the end of this crosslinking by an audible signal emitted by the device 200. This predetermined duration depends in particular on the thickness of the photocurable material, the nature of this material as well as the density of the flow of photons emitted by the screen 202. The object formed by the polymerized material parts of the layer 102 is then recovered (step 310). Access to this object is for example achieved by detaching the rear portion 108 of the case 106. Alternatively, the object can also be recovered by detaching the device 100 from the device 200, and removing the layer 104.

In the particular embodiment described here, a stencil 406 obtained from the crosslinking image 403 is shown in FIG. 4. This stencil 406 comprises portions of polymeric material 408 formed by the exposure to the light emitted from the second zone 404 of the crosslinking image 403, and one or more empty zones 410 (only one in FIG. 4) obtained thanks to the absence of visible light emission from the first zone 402, through which the cosmetic product is intended to be applied. The object produced is preferably rinsed under water and / or dried in order to eliminate the uncured photocurable material, that is to say the parts of material of the layer 102 not exposed to the light emitted by the 202 screen, and solvents.

When the object corresponds to a mask and / or a stencil and / or a stamp, it can then be used either directly by placing it on the surface to be treated, or by inserting it into an ink-pad device allowing applying ink or any other product stored in the ink pad, through this mask and / or stencil.

In the particular example of implementation described here, the stencil 406 is disposed in a device 500 forming a product applicator on lips, as for example shown in FIG. 5. Thus, the stencil 406 obtained has a rear face arranged against a product-loaded element 502, for example a cosmetic product such as lipstick. The stencil 406 is curved and held in the device 500 by a support 504 resting on the stencil 406.

The method and the device 100 described above allow the production of an object advantageously corresponding to a mask and / or a stencil. Alternatively, it is possible to implement this method with the device 100 so that the polymerized material does not form a stencil and / or mask, but a buffer. In this case, the crosslinking image that is created is such that the pattern of this image is positively defined by the solid portions of the stamp that are intended to directly apply the product to the medium. This can also be applied for making objects other than stamps.

Using the example previously described with reference to FIGS. 3A to 3C, if the tampon is intended for applying a cosmetic product to the lips of the user, the crosslinking image comprises in this case an area which will not emit light so as not to polymerize the photocurable material which will be opposite this zone and which corresponds to the zone designated by reference 404 in FIG. 3B, and the zone intended to emit light in order to polymerize the photo-crosslinkable material lying opposite this zone corresponds to that designated by the reference 402.

When the device 100 is intended for the production of a buffer, it is possible for the layer 102 of photocrosslinkable material to comprise non-crosslinkable porogenic agents which, after the crosslinking step, will form pores within the polymer element obtained. Thus, the stamp produced can be loaded with the product intended to be applied by this stamp, such as, for example, lipstick or ink. The blowing agent is, for example, water-soluble and can thus be removed after the polymerization by a step of rinsing the resulting polymer with water. The blowing agent is for example of polymeric nature and may comprise PVA and / or PVP and / or polyalkyloxazoline and / or PEG and / or hydroxycellulose and / or sugar.

Claims (15)

1. Device (100) for producing an object (406), comprising at least: a layer (102) of photocrosslinkable material comprising at least one polymer precursor having at least one function capable of reacting with at least one photoinitiator mixed with the polymer precursor, the photoinitiator being able to trigger a polymerization of the photocrosslinkable material during an exposure of the photocrosslinkable material to a light comprising at least one wavelength of the visible range; - A protective case (106) in which is disposed the layer (102) of photocrosslinkable material and which is opaque or reflective vis-à-vis at least said wavelength. 2. Device (100) according to claim 1, wherein the layer (102) of photocrosslinkable material has a thickness of between about 1 mm and 30 mm. 3. Device (100) according to one of the preceding claims, wherein the polymer precursor is of acrylate and / or acrylate polysaturated and / or silicone acrylate and / or methacrylate and / or isocyanate, and / or polyurethane with at least an acrylate and / or methacrylate function, and / or in which the photoinitiator comprises at least camphorquinone and / or thioxanthone, associated with at least one aminated co-initiator. 4. Device (100) according to one of the preceding claims, wherein the photocrosslinkable material is partially polymerized and / or solid state at ambient pressure and at a temperature less than or equal to about 80 ° C. 5. Device (100) according to one of the preceding claims, wherein the layer (102) of photocrosslinkable material further comprises at least one non-crosslinkable pore-forming agent. 6. Device (100) according to one of the preceding claims, wherein the protective case (106) comprises at least one metal layer capable of reflecting at least said wavelength. 7. Device (100) according to one of the preceding claims, further comprising a layer (104) of transparent material vis-à-vis at least said wavelength and arranged as it passes through the light during the exposure of the photocrosslinkable material to this light. 8. Device (100) according to one of the preceding claims, wherein at least one inner face of the protective case (106) facing which is disposed the layer (102) of photocrosslinkable material forms an optically reflective face to less vis-à-vis said wavelength. 9. Device (100) according to one of the preceding claims, wherein the protective case (106) comprises a removable front portion (112) and / or a rear portion (108). 10. Device (100) according to one of the preceding claims, further comprising a hermetic package opaque or reflective vis-a-vis at least said wavelength and wherein are arranged at least the layer (102) of photocurable material and the protective case (106). 11. A method of producing an object (406), comprising at least the implementation of the following steps: - setting up (306) of a device (100) according to one of claims 1 to 9 with respect to at least one screen (202) of an electronic device (200) such that the photocurable material layer (102) is exposed to the screen (202); - displaying (308) by the screen (202), for a predetermined time, a crosslinking image (403) comprising one or more first regions (402) and one or more second zones (404) such that said length of wave is transmitted only from the at least one second area (404) and only the portion or portions of the layer (102) of photocrosslinkable material disposed opposite the at least one second area (404) is polymerized thereby forming the object (406). The method of claim 11, wherein the protective case (106) of the device (100) has a removable front portion (112) which is removed after the device (100) is placed against the screen (202). ). 13. Method according to one of claims 11 or 12, further comprising, prior to the display of the crosslinking image (403) by the screen (202), the implementation of steps of: - creation or loading (302), in the electronic device (200), a preliminary image (401) from which the object (406) is to be made; digital processing (304) creating the crosslinking image (403) from the preliminary image (401). The method according to one of claims 11 to 13, wherein the protective case (106) of the device (100) has a removable rear portion (108) which is removed after the display of the curing image ( 403) for the predetermined duration, forming an access to the object (406) from outside the device (100). 15. Method according to one of claims 11 to 14, wherein the object (406) produced corresponds to a mask and / or a stencil and / or a buffer.