MUTLI-COMPOSITIONS COSMETIC PRODUCTS AND METHOD FOR THE PRODUCTION THEREOF

专利摘要:
The subject of the invention is new multi-tone, multi-texturing and multi-material cosmetic products, as well as a process for hot casting of cosmetic compositions containing fatty substances, in particular an oil. This method is advantageously free of a mold and allows to create products comprising several compositions so as to obtain very original presentations. This process also makes it possible to produce products with very irregular relief.
公开号:FR3021212A1
申请号:FR1454677
申请日:2014-05-23
公开日:2015-11-27
发明作者:Lily Ann Perrin；La Poterie Valerie De
申请人:LVMH Recherche GIE；
IPC主号:

专利说明:

[0001] The invention relates to novel cosmetic products comprising at least one cosmetic composition, solid at ambient temperature, containing an oil, which composition is intended to be applied to a part of the body. for the care, makeup or perfuming of the skin or hair. The cosmetic products of the invention have new shapes, new combinations of hues, as well as new combinations of textures and materials. Cosmetic products of the invention also have very original relief shapes that could not be achieved with current techniques. The invention also relates to a novel process for hot casting a cosmetic composition. This process consists of melting the composition to fluidify it, then pouring this composition in the fluid state on a surface by successive deposits of very small size which can take the form of leaves, son or drops. The manufacturing method of the invention does not require the use of a mold, which was until now required to manufacture cast cosmetic products. Thanks to the method of the invention, one can easily design multi-composition cosmetic products, that is to say made of several different solid compositions, surface or in the mass, visible or hidden. This process also makes it possible to create very fine reliefs on the surface of these products.
[0002] Solid cosmetic compositions which contain fatty substances in high proportions are generally manufactured by hot casting, either in a mold that gives them a shape, or in a cup or a cup. Thus, makeup articles that provide the consumer with a flat surface for taking the product, for example, blushes, foundations or eye shadows, have a housing with a lid and a receptacle. These products are obtained by hot casting the liquefied product in the cup from above or from below via holes drilled in the cup. This is then placed in the housing.
[0003] Embossed makeup products, such as sticks, are made by molding. The composition is melted above its melting point, then poured into the mold, allowed to cool and demolded. The demolded product 302 1 2 1 2 2 is then placed in a container with or without a rotating mechanism for its extraction or handling. The molds are made of metal or plastic, for example silicone or SEBS elastomer, for easy demolding of objects. The 5 manual metal molds are made in several parts which are separated to allow demolding. Industrial metal molds are made in one part that has a slot through which compressed air ejects the stick at the time of demolding. These metal molds require a surface treatment such as spraying a silicone oil on the walls to facilitate demolding and to improve the surface condition of the molded objects. The cosmetic product is melted beyond its melting temperature and then poured into mold cavities which can be preheated beforehand to a temperature of about 40 ° C to prevent a setting too fast. The molds are cooled, once filled, by contact with a refrigerating table or in a refrigerated chamber whose temperature is between -20 ° C and 15 ° C. The molding processes of the sticks thus have many disadvantages, such as the high cost of designing and manufacturing high precision molds, the need to reach temperatures below 0 ° C to allow demolding, long periods of time. cooling the products that were poured into the molds, the obligation to clean the molds after each use, and the need to reheat the molds to perform a new manufacturing cycle. The exploitation of this type of process has other disadvantages such as the frequent revision of the metal molds or the regular replacement of the silicone molds, a revision made necessary by the repeated mechanical and thermal shocks or the impregnation of ingredients of the compositions. cosmetics in the material of silicone molds Lipstick sticks may have relief and hue variations, but the reliefs are limited to a few tenths of 30 millimeters and the number of hues rarely exceeds two or three. Hue effects have been proposed but they are always geometric: radial type (double cylinder core-bark structure) or linear (vertical or horizontal layers). Finally, patterns of random hues have already been proposed by casting two shades in the fluid state at the same time in the mold. The core / bark stick structures are obtained by molding. For example, a multicolored lipstick is made using a pair of molds: a core mold placed in the center of a cylindrical mold. A first casting of a first shade is made in the hollow portion of the core mold, which is allowed to cool and solidify. After removing the central mold, the cavity left after removal of the core is filled with a second shade to obtain the multicolored lipstick. As an alternative method, a separator plate may be inserted to create semi-cylindrical cavities, and then removed after solidification of the different hues. This method, however, requires that the colors are then made integral by moderate heating of their surface to allow their assembly. The side-by-side stick structures are prepared with a first mold having a hemi-cylindrical cavity (comprising two pieces including a removable vertical flat plate). A first melt is poured into this cavity and cooled to solidify the composition. The plate is removed and replaced by a second mold identical to the first one which is placed in mirror and in contact with the first composition. A second melt is poured into the cavity and cooled. After demolding, the two semi-cylindrical compositions connected together in a radial plane. Makeup products comprising one or two relief patterns of different colors flush with a flat surface have been proposed by molding in the patent FR 2956833, using two superimposed molds. A rigid flat-bottomed cup pierced with an orifice is positioned on a deformable mold 20. The makeup product in liquid form is poured into the deformable mold through the orifice of the cup, so that the demolded product obtained comprises one or more patterns on the free surface offered to the consumer. The reliefs obtained have a height of the order of 1 to 2 mm. The inventors have also attempted to make several castings in a mold to create a lipstick stick consisting of several horizontal layers of different colors. But this process is very limited, because the minimum thickness of the layers must be important to ensure their regularity, typically of the order of a few millimeters. All of these methods, however, have the disadvantage of requiring several molds, and several pouring steps spaced apart in time, because it is necessary to wait for the cooling and solidification of the first shade before casting the second to avoid mixing. Moreover, in all cast multicolored products of the prior art, the product layers necessarily have a flat surface due to gravity: either parallel to the vertical axis of the stick or perpendicular to the vertical axis of the stick. , which considerably limits the possibilities of presentation of the products that one wishes multi-tints.
[0004] Finally, molds are expensive to manufacture, especially when one wishes to achieve irregular shapes, and require frequent inspection and maintenance. The need therefore remains to propose multi-composition cosmetic products offering new arrangements of hue, texture or material that are easier, faster and less expensive to manufacture. We are also looking to make cosmetic products with more irregular and finer terrain.
[0005] It is desired to develop new forms and new presentations of solid cosmetic compositions containing an oil, especially in high proportion, in particular in the field of makeup. In the context of the invention, the inventors have found that it is possible to shape such compositions in forms, reliefs and shades very varied to form multi-tone products. They have also found a method for casting in the same step cosmetic compositions of different texture to form multitextures products. Finally, they have found a method for simultaneously casting a cosmetic composition and a non-cosmetic thermoplastic carrier material to form multi-material products. The inventors have thus found a new process for hot casting a solid composition which does not require the use of a mold or a container as is the case in all the processes of the prior art. This process makes it possible in particular to obtain very fine patterns, ribbon interlacing, as well as color gradients, which had never been done before. The method of the invention has many advantages. It makes it possible to shape products whose surface or mass comprises a plurality of shapes and areas of different colors. The surface of these shapes and areas is not necessarily flat. The present invention therefore relates to a new process for producing a solid cosmetic product, which consists in melting a composition, casting it in a fluid state on a support in a predefined pattern by producing a plurality of successive or simultaneous deposits, then let them cool. For the purposes of the present invention, the term "cosmetic composition" means the mixture of several ingredients including an oil forming a solid object at 25 ° C. The cosmetic composition is intended to be applied as it is to a part of the body for the care, makeup or perfuming of the skin or hair. By "cosmetic product", a product intended for sale which comprises at least one cosmetic composition possibly associated with means of application and presented in a container. By "multi-composition cosmetic product" is meant a cosmetic product comprising at least two, preferably at least three solid compositions, different in the ingredients that compose them. The totality of the compositions may appear different on the surface of the product and be visible to the user. Alternatively, a first composition may be located in the mass of the product, so that the user can perceive it by transparency of a second composition which masks it, or discover it once the second composition which has masked it has been used. by successive applications on the body, the face or the hair. By "multi-tone product" is meant a cosmetic product comprising at least two, preferably at least three or four cosmetic compositions of different hues. The term "multi-texture product" is intended to mean a cosmetic product comprising at least two cosmetic compositions having different textures, that is to say causing a different feel to the grip or application depending on their consistency and their properties. rheological. Examples of textures include water-in-oil emulsions, gels and anhydrous products. By "multi-material product" is meant a product comprising at least one cosmetic composition and at least one thermoplastic non-cosmetic support material, which carrier material has been shaped according to the process of the invention. The term "solid" is understood to mean a composition having, at 25 ° C. and at atmospheric pressure (1 atm = 105 Pa), a hardness greater than 0.5 N, preferably greater than 2 N, said hardness being preferably measured at 1 using a texturometer equipped with a hemispherical probe with a diameter of 12.7 mm. By "solidified" is meant partially or completely solidified, that is to say that a part of the mass or the totality of the mass of the deposit is at a temperature below its point of fluidification.
[0006] "Wire" means a substantially cylindrical volume whose average diameter is much smaller than its length. The wire may have a mean diameter of between 0.1 mm and 5 mm. By "drop" is meant a substantially spherical volume of average diameter between 0.01 and 5 mm. By "sheet" is meant a substantially parallelepipedic volume whose width is much greater than its thickness. By "fluidizing point" is meant the temperature at which at least a portion of the solid composition at 25 ° C goes to the liquid state. The fluidization point of the composition may be the melting temperature T50 at which 50% of the composition is liquid, the melting temperature T80 at which 80% of the composition is liquid, the melting temperature T90 at which 90% of the composition is liquid. the composition is liquid, the drop point of the composition or the sol-gel transition temperature of the composition. By "oil" is meant a liquid fatty substance at 15 ° C. For the purposes of the present invention, the term "wax" means a solid compound at 25 ° C which exhibits a reversible solid / liquid state change and a melting point of greater than 30 ° C. By "pasty fatty compound" is meant a non-crystalline fatty compound comprising at a temperature of 25 ° C, a liquid fraction and a solid fraction. In the present application, the expression expressing a range of values "going from ... to" comprises the bounds, while the expression expressing a range of values "between ... and" excludes the bounds. A first object of the invention relates to a process for producing a cosmetic product by casting at least one oil-containing composition, having a fluidification point between 30 and 150 ° C, and a mean hardness - measured at 25 ° C using a texturometer equipped with a hemispherical probe - between 0.5 and 80 N, which process comprises the following succession of steps: a) the fluidification of the composition by heating it to a fluidification temperature higher than its fluidization point, b) introducing the fluidized composition into at least one casting nozzle, c) pouring the fluidized composition through the nozzle, on a support, to form a first deposit of said composition on said support, and the relative movement - in at least one of the three directions of the space - of the nozzle with respect to said support, which deposit essentially retains its shape after solidified cation, d) the stop of the casting, e) the relative displacement of the nozzle relative to the support.
[0007] In this process, the deposit advantageously has the form of drops or son. The method may further comprise a step f). Step f) may consist of the repetition of steps a) to e) - at least once - to form at least one other deposit on said support, using a first composition or a second composition, which second composition contains an oil which has a fluidization point between 30 and 150 ° C, and has an average hardness - measured at 25 ° C using a texturometer with a hemispherical probe - between 0.5 and 80 N.
[0008] Step f) may consist of the repetition of steps a) to e) - at least once - to form at least one other deposit on said support, using another composition. Step f) may consist of the repetition of steps c) to e) - at least once - to form at least one other deposit on said support, using the same composition. Indeed, in this case, it is not necessary to repeat the stamps a) fluidizing the composition or step b) of introducing the composition into the casting nozzle. It is possible to prepare, before starting the process of the invention, in a fluidization tank, a fluidized composition volume corresponding to the volume of all the composition deposits that will be necessary to manufacture the cosmetic product as a whole. On the contrary, it may be decided to thin the amount of composition corresponding to a single one. Thus, according to one embodiment, the subject of the invention is a process for manufacturing a cosmetic product by casting at least one composition containing an oil, having a fluidification point of between 30 and 150 ° C. and of average hardness - measured at 25 ° C using a texturometer equipped with a hemispherical probe - between 0.5 and 80 N, which process comprises the following succession of steps: a) the fluidification of the composition by heating it to a fluidification temperature higher than its fluidification point, b) introducing the fluidized composition into at least one casting nozzle, c) pouring the fluidized composition, via the nozzle, on a support, to form a first deposit of said composition on said support, and the relative movement - in at least one of the three directions of the space - of the nozzle relative to said support, which deposit essentially keeps its form after solidifying, d) stopping casting, e) relative displacement of the nozzle relative to the support, and f) repeating steps a) to e) at least once to form at least one other deposit on said support , using the same composition or another composition which contains an oil, which has a fluidification point between 30 and 150 ° C, and has an average hardness - measured at 25 ° C with the aid of a texturometer equipped with a hemispherical probe - between 0.5 and 80 N. The method of the invention has the advantage of being able to design new cosmetic products in shorter development times. Indeed, the flow of the cast composition may be advantageously lower than that of hot casting processes of the prior art, so as to eliminate the necessary cooling step between two casting steps of two different compositions. The casting of the process of the invention can be carried out in almost continuous mode. Once the deposited composition has been deposited on the support, the latter has a surface in contact with the support, a free surface and possibly a surface in contact with a deposit which has been cast previously. The casting method of the invention advantageously makes it possible to create a deposit whose one of its surfaces is non-planar. The free surface of the deposit is preferably non-planar. When the support defines a hollow volume, the deposits made according to the method of the invention have the advantage of not filling this volume, unlike the casting processes of the prior art which uses a mold as a support. The deposition of composition once solidified has the particularity of having at least one of its three dimensions less than 5 mm, preferably less than 3 mm. Also, the deposit may be in the form of a cylinder (or wire), a sphere (or drop), a sheet. Step a) of the process of the invention consists in the fluidification of the composition by heating it to a fluidification temperature higher than its point of fluidification.
[0009] During step a), the composition is made fluid by adding heat, starting from its state which is solid at 25 ° C. According to one embodiment, in a step prior to step a), the ingredients used for the preparation of the composition whose oil is mixed with heat, then the mixture obtained is cooled, and optionally stored for its use in step a). It is also possible to prepare, in a first step prior to step a), a base consisting of all the ingredients used to prepare the composition, with the exception of dyestuffs such as pigments, pearlescent agents and dyes. second step prior to step a), add the dyestuffs that have been chosen by the consumer. The fluid mass resulting from one of these two variants is preferably continuously stirred in a mixer at a constant temperature, preferably at the fluidification temperature, which is higher than the fluidification point of the composition. The composition may be mixed, for example in a screw extruder, before being introduced into the casting nozzle. According to one variant, the composition may be introduced in the form of a solid powder in a screw extruder equipped with a heating means which brings the composition to the fluidification temperature to cause its fluidification. The end of the extruder delivering the fluid mass of composition is advantageously connected to a feed means of the casting nozzle. The composition is advantageously adapted so that, at the casting temperature, its viscosity allows its flow in the form of a regular deposit on the support, and for the deposit formed to solidify according to the desired kinetics as a function of the expected result. It may be desirable for the deposit to solidify very rapidly or slowly to facilitate its adhesion to a subsequent deposit. The solidification rate of the free surface can be modulated by air-conditioning of the ambient air. In one embodiment, solidification of the free surface of the deposits is advantageously effected in a few seconds at ambient temperature (25 ° C.). The deposit may have the advantage of solidifying in a few seconds, so that it is not necessary to mark a stop between two sets of steps a) to e). The characteristics of the cosmetic composition which will be described below also apply to the second and third subjects of the invention. The fluidizing point of the composition is preferably between 30 and 100 ° C, preferably between 40 and 95 ° C. Depending on the nature of the composition and the compounds used to structure the oil contained therein, the fluidizing point of the composition may be defined as the melting temperature at which some or all of the its mass is in the liquid state. For example, the temperature TX is the temperature at which X% of the composition is in the liquid state, X being a number between 1 and 100. It is preferred to use, in the context of the present invention, the parameters T50, T90 and T95. the temperature T 50 being the temperature at which 50% of the composition is in the liquid state, the temperature T 90 being the temperature at which 90% of the composition is in the liquid state and the temperature T 95 is the temperature at which 95% of the composition is in the liquid state. These temperatures can be measured using a differential scanning calorimeter (DSC), such as the calorimeter sold under the name DSC 30 by Mettler, with a temperature rise of 5 or 10 ° C per minute. The curve representing the energy absorbed by the sample to melt as a function of temperature (thermogram) defines an area. TX represents the temperature at which the value of the area under the curve at TX is equal to X% of the total area under the curve. The total melting enthalpy of the composition is equal to the area under the curve of its thermogram obtained using a differential scanning calorimeter such as the calorimeter sold under the name MDSC 2920 by the company TA instrument. with a rise in temperature of 5 or 10 ° C per minute. The melting enthalpy of the composition, expressed in 3 g, represents the amount of energy required to bring the composition from the solid state to the liquid state. Thus, the heat of fusion consumed at X ° C is the amount of energy absorbed by the sample to pass from the solid state to the state that it has at X ° C consisting of a liquid fraction and a solid fraction. The liquid fraction of the composition measured at X ° C. is equal to the ratio of the heat of fusion consumed at X ° C. and the total enthalpy of melting of the composition. The fluidizing point can also be defined as the drop point of the composition. The dropping point can be measured with a device equipped with standard 2.8 mm orifice diameter cups, with a heating rate of 1.0 ° C or 2.0 ° C / min, a starting temperature of 35 ° C below the expected drop point, and an end temperature of 10 to 15 ° C above or expected drop point. The drop can be detected visually using a camera built into the device or by a measuring cell.
[0010] The apparatus retains the temperature at which the drop has flowed into a collection sleeve. The device can be the Mettler FP900 Thermosystem model associated with a Mettler FP83HT measuring cell, or the Toledo DP70 model. The composition is hot-cast in the cup and then allowed to cool and kept in an enclosure at 20 ° C. for 4 hours. The fluidizing point can also be defined as the sol-gel transition temperature of the composition as defined for example in Polymer Journal, 18 (5), 411-416 (1986).
[0011] The fluidizing point can also be defined as the softening point of the composition. For example, the softening point measured according to this method may be between 55 to 85 ° C. To measure the softening point of the composition by the ball and ring method, a brass ring of defined dimensions is filled with melted composition, and placed on its support. A steel ball (diameter = 9.53 mm, mass = 3.5 g) is on the composition in the center of the ring. The carrier carrying the filled ring is then immersed in a beaker (at least 85 mm inside diameter and over 120 mm high) containing deionized water, glycerol or silicone oil, depending on the temperature range that the we want to sweep. The bath temperature is increased by 5 ° C.min-1. Note the temperature at which the material surrounding the ball is detached from the ring and falls on the bottom plate of the support. The composition used in the context of the invention is preferably provided with a drop point greater than 50 ° C., for example between 70 and 85 ° C. The drop point of the composition may be greater than 50 ° C, preferably greater than 55 ° C, for example between 55 and 60 ° C, between 70 and 80 ° C, or between 75 and 85 ° C. The composition can be provided with a temperature T50 of between 40 and 70 ° C., for example between 55 and 60 ° C. The composition may respond to a T 90 of between 70 and 85 ° C., more specifically between 75 and 80 ° C. Fluidization temperature The fluidization temperature is preferably greater than 1 to 15 ° C, for example greater than 5 to 10 ° C, at the point of fluidification of the composition, so as to obtain the fluidized composition, in a homogeneous form, especially in the case where it contains waxes or pulverulent materials, such as pigments or fillers in fairly large quantities. The fluidized composition at the fluidizing temperature is advantageously introduced into the casting nozzle by applying a pressure ranging from 100 to 4000 kPa, for example from 500 to 2500 kPa. To prevent clogging of the supply means connecting the tank and the nozzle, they may be wrapped with devices with double walls of hot water in order to maintain the composition in these supply means at the desired fluidification temperature. The fluidized composition may be dispensed by nozzles or other dispensing pieces. Once cooled, it forms a deposit with an appropriate hardness at 25 ° C. At the casting temperature, the fluidized composition has a viscosity sufficiently low to be distributed through an orifice of the nozzle and allow to deposit sheets, son or drops of small thickness. The composition preferably has, at the moment of its deposition on the support, a sufficiently high viscosity and / or a cooling kinetics such that the deposit remains in shape until it solidifies. It will be possible to choose compositions having a low viscosity to make more precise deposits, in particular by reducing the thickness of the sheets, wires and drops. In some applications, the composition is advantageously provided with a high rate of heat dissipation, so that the composition deposition solidifies rapidly. These heat dissipations can be modulated by modifying the temperature of the support and / or by placing the support in a thermostatically controlled enclosure. The casting temperature of the composition in the nozzle in step b) may be less than or equal to the fluidizing temperature. It remains greater than or equal to the point of fluidification of the composition. The solidification of the surface of a composition deposit takes place in a few seconds when the support and the atmosphere surrounding it are at 25 ° C. It may be decided to accelerate the solidification of the deposit by using a thermostatic casting chamber at a temperature below 25 ° C, for example equal to 10 ° C, 4 ° C, or 0 ° C. The casting temperature is for example between 30 and 110 ° C, especially between 40 and 90 ° C. The casting temperature may be less than or equal to the fluidification temperature. Indeed, the fluidizing temperature melts the composition to a temperature where it is sufficiently fluid to be well homogeneous. At the time of casting, the temperature of the composition is lowered to give it more consistency, since the deposit formed on the support after passing the composition through the nozzle must essentially retain the shape that results directly from its passage through the nozzle . The casting temperature will be adapted according to the cooling rate of the composition, but also depending on the viscosity of the fluidized composition to be adapted to a smooth flow through the nozzle. A composition deposit solidifies completely preferably in a period of time between a few seconds and a few minutes. In one embodiment, the casting temperature is less than or equal to the fluidizing temperature and close enough to the fluidification point, so that the formed deposit (s) cool rapidly and solidify rapidly. In particular the deposits do not spread on the support, before being solidified. For example, the casting temperature is greater than at most 30 ° C., preferably at most 20 ° C. of the fluidification point of the composition, and at least 10 ° C. lower than the fluidification temperature of the composition. composition. One can also play on the temperature of the support to modulate the rate of solidification of the deposits. Thus, in one embodiment, the temperature of the support is less than or equal to the casting temperature of the composition; for example, the temperature of the support is of the order of 20 to 25 ° C. In another embodiment, the temperature of the support may be between 25 ° C to 50 ° C, to ensure good adhesion between the support and the deposit, or between the deposits between them. The dynamic viscosity of the composition, at the casting temperature and at atmospheric pressure, is preferably between 1 and 10,000 mPa.s, for example between 100 and 500 mPa.s.
[0012] According to one embodiment, the dynamic viscosity of the composition at the casting temperature is preferably between 1 and 10,000 mPa.s, for example between 100 and 500 mPa.s, or between 10 and 15 mPa.s. The viscosity of the composition can be measured with a Mettler viscometer RM 180 (Rheomat) can be equipped with different axes depending on the order of magnitude of the viscosity that it is desired to measure. For a viscosity ranging from 180 mPa.s to 4020 mPa.s, the instrument is equipped with a pin 3. For a viscosity ranging from 1 Pa.s to 24 Pa.s, the instrument is equipped with a spindle 4, and for a viscosity ranging from 8 Pa.s to 122 Pa.s, the instrument is equipped with a spindle 5. The viscosity is read on the instrument in deflection units (UA). We then speak of tables provided with the measuring instrument, in order to obtain the corresponding value in poise. The speed at which the spindle rotates is 200 revolutions per minute. From this moment, when the spindle is rotated, at a constant constant rotation speed (in this case 200 revolutions per minute). The value of the viscosity may vary over time. Measurements are taken at regular intervals until they become constant. The value of the viscosity become constant over time is the value retained as the value of the dynamic viscosity of the composition. The nozzle is provided at the bottom with an orifice allowing the flow of the fluidized composition. One of the dimensions of this orifice ranges from 0.01 to 5 mm. It ranges, for example, from 0.05 to 3 mm, from 0.1 to 1.5 mm, or from 0.3 to 0.8 mm. The shape of the orifice can be any. It is preferably circular. According to one embodiment, the orifice defines a disc of 0.5 mm to 1 mm in diameter. The relative speed of movement of the nozzle relative to the support 20 during casting can range from 0 to 300 mm / s, for example from 100 to 150 mm / s. For deposits of very small volume, such as drops, the nozzle is preferably immobile. For wire-shaped deposits, the speed of movement of the nozzle and the flow rate of casting will be chosen as a function of the desired effect but also of the viscosity of the composition at the casting temperature. Those skilled in the art will also be able to adapt the distance of the nozzle relative to the support, and the flow rate of the composition through the nozzle, so as to maintain the integrity of the flow of composition through the nozzle and allow cooling rapid deposit during casting. The method may include pouring several deposits through several nozzles concomitantly. Simultaneous casting is in this case preferably carried out at different support coordinates. The nozzles may be integral with each other and move in parallel paths, or on the contrary be each provided with own displacement means so as to follow paths independent of each other. The process may also include casting a composition deposit and casting a thermoplastic material deposit concomitantly or separately. The fluidized composition is poured at a controlled rate from a pouring nozzle onto the support, preferably in a predetermined pattern. The deposits - which have been carried out by the repetition of casting cycles comprising steps a) to e) - solidify and advantageously adhere to each other to constitute the product of the invention in relief and / or comprising a plurality of tints. The flow rate is controlled so that a first deposition of at least a first composition is partially solidified before a second deposit is poured into contact with the first. The flow rate can also be adapted according to the relative speed of displacement of the nozzle relative to the support. The method of the invention may comprise a step g) of casting a thermoplastic material. This step may be carried out previously, subsequently or simultaneously with the casting step c) of the cosmetic composition. The thermoplastic material may for example be chosen from the following: polyethylene (PE), polyvinyl chloride (PVC), polypropylene (PP), polystyrene (PS), polymethyl methacrylate (PMMA), polyethylene terephthalate (PET), polylactic acid (PLA), polyamide (PA), acrylonitrile butadiene styrene (ABS), as well as copolymers of the foregoing. The support advantageously defines a surface on which the composition deposit (s) are cast. The surface is essentially planar in the sense that its radius of curvature is small (less than 20 °). This surface does not define a volume that the composition deposit has filled. The support may be of a cosmetic or non-cosmetic nature. The temperature of the support may be less than or equal to 25 ° C, for example equal to 10 ° C, 4 ° C, or 0 ° C, in the case where it is desired to accelerate the cooling of the casting composition deposit. In the opposite objective, the support can be heated to a temperature above 25 ° C. According to a preferred embodiment, the support is of a cosmetic nature and can be applied to the skin in the same way as the composition which has been cast on it. The support may be a lipstick, a perfuming product, a solid foundation or an eyeshadow. For example, the support is a cosmetic product which has been manufactured by molding or pressing prior to the implementation of the 302 process. 1 2 1 2 16 the invention. In this embodiment, the support may be made by melting a mixture comprising predominantly a solid fatty phase at 25 ° C, by casting said mixture in a mold, by cooling said mixture, and then by demolding the piece thus formed. The invention has the advantage of allowing the assembly of a plurality of cosmetics which are shaped independently. The product of the invention may comprise the assembly of an anhydrous cosmetic support and anhydrous deposits, an anhydrous support and water-in-oil emulsion deposits, a water-in-oil emulsion support and 10 anhydrous deposits, a water-in-oil emulsion support and water-in-oil emulsion deposits. The support of non-cosmetic nature may be a piece of metal material or plastic. It may also constitute a container 15 serving to condition the cosmetic product. The support can remain attached to the cosmetic product obtained at the end of step f), or on the contrary be separated. The support is thus intended to be separated from the cosmetic product, or on the contrary constitutes a part of the cosmetic product of the invention. Step f) can be performed several times. Indeed, steps a) to e) can be repeated one or more times so as to form several deposits on the support. These deposits may be in contact with each other, or on the contrary deposited in a disjoint manner on the support. For this, the nozzle is moved in a plane parallel to the medium plane of the support or in a plane perpendicular to it. According to the method of the invention, the composition and the diameter of the nozzle are chosen so that it is not necessary to wait for a first deposit to be partially or completely solidified, before carrying out a second one. deposit. On the contrary, it is preferred that the first deposit is not solidified when a second deposit is poured and comes into contact with the latter, so as to promote their adhesion. The composition used in the casting process of the invention is solid at 25 ° C and contains at least one oil. The oil or the mixture of oils is preferably the majority compound of the composition. The composition is preferably provided with a fluidification point between 30 and 150 ° C, and a mean hardness - measured at 25 ° C using a texturometer provided with a hemispherical probe - between 0.5 and 80 N. This composition makes it possible to make deposits, in particular deposits having a very small thickness, because it has a sufficient fluidity and a sufficiently high consistency so that the deposit is not deformed after passing through the orifice of the nozzle, so that the deposit does not sag once poured on the support before being solidified, and for the deposit to adhere to the support or to a deposit previously made. For example, the hardness of the composition - measured according to one of the methods described hereinafter is between 0.5 and 80 N, preferably between 2 and 70 N, more preferably between 3 and 45 N. The hardness of the composition may be, for example, between 18 and 44 N, or between 30 and 40 N. In some embodiments, the hardness of the composition is between 15 and 25 N, between 6 and 17 N or between 9 and 15 N. and N. The hardness of the compositions can be measured with a texturometer of the Stable Micro Systems brand, model TA.XT.Plus, by penetration of a 12.7 mm diameter hemispherical probe. The measurement was carried out in a Cleopatra pot which was filled with 100 ml of composition. The average of three measurements made on three different samples is preferably chosen by choosing the following measurement parameters: approach at 2 mm / s, measurement at 2 mm / s, shrinkage at 2 mm / s, penetration of 13 mm, relaxation of 25 sec, and a triggering force of 0.02 N. The hardness of the composition can also be measured with a TA-XT2i texturometer from Rhéo, equipped with a 25 mm high ebonite cylinder with a diameter of 8 mm. The hardness measurement can be performed at the center of 5 composition samples. The cylinder is introduced into each composition sample at a pre-speed of 2 mm / sec and then at a speed of 0.5 mm / sec and finally at a withdrawal speed of 2 mm / sec. The total displacement is 1 mm. The composition may respond to the following parameters: a hardness of between 15 and 25 N and a drop point of between 70 and 80 ° C., or a hardness of between 6 and 17 N and a drop point of between 75 and 85 ° C, or a hardness between 9 and 15 N and a drop point between 55 and 60 ° C, or a hardness between 18 and 44 N, a drop point between 40 and 70 ° C, a temperature T50 of between 70 and 85 ° C., and a temperature T90 of between 74 and 81 ° C., or a hardness of between 30 and 40 N, a drop point between 55 and 60 ° C., a temperature T 50 between 75 and 80 ° C, and a temperature T90 of between 75 and 80 ° C. a hardness between 40 and 45 N and a drop point between 75 and 80 ° C. The process of the invention may comprise treatments which are carried out during one of the steps a) to f), or in a separate step, in order to improve the aesthetic quality of the product. For example, an infrared flame of the deposits successively produced by the method can be used to smooth the surfaces created by their juxtaposition, their superposition or their overlap. Other surface treatments known in the art, such as laser patterning, nacre spraying, and nacre plating can be envisaged. The invention also relates to a cosmetic product obtained by melting a solid composition at 25 ° C. containing an oil, and by at least one deposition of said composition in the fluid state, said deposit having the form of a sheet, of a thread or a drop. It can be expected that the product has several deposits of different shapes. A second subject of the invention is a multi-colored, multi-texture or multi-material cosmetic product, in particular a make-up product, a care product, a sunscreen product or a perfuming product, comprising at least one depot. on a support of a solid cosmetic composition containing at least one oil which is preferably provided with a fluidification point of between 30 and 150 ° C, and which has an average hardness - measured at 25 ° C using a texturometer equipped with a hemispherical probe - between 0.5 and 80 N, the deposit having the shape of son and / or drops less than 5 mm thick. The product preferably comprises at least two deposits of a cosmetic composition. It may also include several deposits of different cosmetic compositions. A third subject of the invention is a multi-colored, multi-texture or multi-material cosmetic product, in particular a make-up product, a care product, a sunscreen product or a fragrance product, comprising a plurality domains consisting of different cosmetic compositions solid at 25 ° C each containing independently of each other at least one oil, the compositions being independently of one another a fluidization point between 30 and 150 ° C, and of average hardness - measured at 25 ° C using a texturometer equipped with a hemispherical probe - between 0.5 and 80 N, the product comprising neither a stack of parallel flat layers between them, neither a succession of coaxial cylindrical layers, nor a plane cosmetic surface. By planar cosmetic surface is meant at least one free surface of a cosmetic composition of the product of the invention that a user can take. The description of the product which follows applies as appropriate to the second object and the third subject of the invention. According to one of its aspects, the cosmetic product of the invention comprises a plurality of areas of compositions in contact with each other which have different drop points and hardnesses. These areas may describe geometric patterns or non-geometric patterns. Their hues may be the same or different. The product of the invention can take a variety of forms, such as a stick, a half-sphere or a sphere.
[0013] The surface or mass of the product of the invention may, for example, have non-geometric multicolored structured shapes. By "structured form" is meant a two-dimensional pattern whose shape is not random. The product of the invention may comprise perforated shapes, interleaved ribbons such as braids, porous surfaces, or gradations of colors. The cosmetic product of the invention may have one or more functionalities, for example a makeup product, a care product, a sunscreen product or a perfume product. Makeup products include makeup products for the lips, eyes, cheeks, eyebrows, face, and body, such as lipstick, blush or eye shadow. In one embodiment, the cosmetic product of the invention can be used as eyeshadow, blush, lip gloss, lip balm, lipstick, foundation. It can also have many of these features. Another subject of the invention is a cosmetic product comprising a cosmetic composition whose reliefs have a height of less than 1 mm, preferably less than 0.5 mm, more preferably less than or equal to 0.1 302 1 2 1 2 20 mm, or such that its user presentation surface has very high areas of curvature. These relief patterns could not be obtained before by a conventional casting process in a mold. The cosmetic product of the invention may comprise several compositions described above. In a particular embodiment, the product of the invention comprises the assembly of i) a lipstick grape, and ii) at least one deposit of the same composition as the lipstick raisin. except for the nacres and pigments it contains. The support of the cosmetic product of the invention may be a pressed powder made one of the following series of steps: i) compaction, using an imprint of a mixture comprising a majority proportion of powders, in order to form cakes of powder, ii) compacting a mixture comprising a majority proportion of powders, and laser cutting according to the desired shape, or iii) mixing powders in a solvent to obtain a paste which is extruded, cutting the dough to the punch according to the desired shape, and drying. The cosmetic product of the invention comprises a packaging such as a bottle or a box. The housing may include a cover that can be hinged to a bottom, and include a mirror. The bottom may comprise a recess in which is placed an applicator, in the form of a brush, a brush or a foam tip attached to a rod. The applicator can be housed and snapped into the housing. The package may be provided with one or more compartments or recesses. One of these compartments may contain different compositions which are in contact with each other without the need to separate them by walls. On the contrary, in the prior art, each compartment is intended to receive a single composition at a time, given the manufacturing constraints of the casting processes. The characteristics of the cosmetic composition which will be described below may be applied to the first, second and third subjects of the invention. The cosmetic composition may be anhydrous, or contain both an aqueous phase and a fatty phase. The composition may be for example a water-in-oil emulsion solid at room temperature. Said composition preferably contains predominantly fatty substances, such as oils, waxes and pasty fatty compounds. The composition used in the process of the invention or forming part of the product of the invention contains an oil, which may be volatile or not. The volatile oils may be chosen from isododecane, isodecane, isohexadecane, octamethylcyclotetrasiloxane, decamethylcyclopentasiloxane, dodecamethylcyclohexasiloxane and pentacyclomethicone. Non-volatile hydrocarbon oils that may especially be mentioned include wheat germ, sunflower oil, grape seed oil, sesame oil, maize oil, apricot oil, castor oil, shea oil, avocado oil, olive oil, soya, sweet almond, palm, rapeseed, cotton, hazelnut, macadamia, jojoba, alfalfa, poppy, pumpkin, sesame, pumpkin, rapeseed, blackcurrant, evening primrose millet, barley, quinoa, rye, safflower, bancoulier, passionflower, muscat rose; shea butter; or the triglycerides of caprylic / capric acids; synthetic ethers having from 10 to 40 carbon atoms; petroleum jelly, polydecenes, hydrogenated polyisobutene, polybutylenes, hydrogenated polyisobutylenes, hydrogenated polydecenes, copolymers of vinylpyrrolidone such as PVP / hexadecene copolymer, pentaerythrityl tetrapelargonate, polyglycerol-2 triisostearate, tridecyl trimellitate , triisoarachidyl citrate, pentaerythrityl tetraisononanoate, glyceryl triisostearate, pentaerythrityl tetraisostearate and glyceryl tridecyl-2 tetradecanoate, squalane, synthetic esters such as cetostearyl octanoate, myristate 20, isopropyl, isopropyl palmitate, C12-C15 alcohol benzoates, hexyl laurate, diisopropyl adipate, isononyl isononanoate, 2-ethylhexyl palmitate, isostearate isostearyl, heptanoates, octanoates, decanoates or ricinoleates of alcohols or polyalcohols such as propylene glycol dioctanoate ; hydroxyl esters such as isostearyl lactate, di-isostearyl malate; polyol esters and pentaerythritol esters, - branched-chain and / or unsaturated carbon-chain liquid fatty alcohols having from 12 to 26 carbon atoms, such as octyl dodecanol, isostearyl alcohol, oleic alcohol, 2-hexyldecanol, 2-butyloctanol, and 2-undecylpentadecanol; higher fatty acids such as oleic acid, linoleic acid, linolenic acid and mixtures thereof. The non-volatile silicone oils that may be used in the composition may be non-volatile polydimethylsiloxanes (PDMS) or phenyl trimethicones. The oils may represent from 0.01 to 99% of the total weight of the composition, preferably from 0.05 to 60% and more preferably from 1 to 35%. The composition may contain a structuring compound which gives the oil it contains a solid consistency at 25 ° C. This structuring compound 302 may be chosen from waxes, pasty fatty substances, oil-gelling polymers and mineral oil-gelling compounds. The composition may comprise, for example, a mixture of oil (s), wax (es) and pastes. For example, the oils represent between 55 and 65% by weight of the composition, while the waxes represent from 2 to 20% by weight of the composition and the pastes represent from 10 to 30% by weight of the composition. For the purposes of the present invention, the term "wax" means a compound which is solid at 25 ° C. and which has a reversible solid / liquid state change and a melting point of greater than 30 ° C, preferably greater than 45 ° C. ° C. There may be mentioned microcrystalline waxes, paraffin waxes, polyethylene waxes, ozokerite, carnauba wax, beeswax, products comprising a mixture of polyethylene and alcohols having 20 to 50 carbon atoms. silicone waxes, in particular alkyl dimethicones, C20-C40 alkyl stearates, and waxes obtained by catalytic hydrogenation of vegetable oils having linear or branched C8-C32 chains, such as hydrogenated jojoba oil, waxes obtained by hydrogenation of castor oil esterified with a fatty alcohol, candelilla wax, copolymers of maleic anhydride and alpha-olefin, waxes obtained by metallocene catalysis and lanolin wax. The term "pasty fatty compound" refers to a non-crystalline fatty compound comprising at a temperature of 25 ° C, a liquid fraction and a solid fraction. The pasty compound is, for example, chosen from the group consisting of lanolin and its derivatives, polymeric silicone compounds, copolymers of alkyl (meth) acrylates preferably having a C 8 -C 30 alkyl group, homo oligomers and copolymers of vinyl esters having C 8 -C 30 alkyl groups, oligomers homo and copolymers of vinyl ethers having C 8 -C 30 alkyl groups, fat-soluble polyethers resulting from polyetherification between one or more C 2 -C 50 diols, copolymers of ethylene oxide and / or propylene oxide with C6-C30 long chain alkylene oxides, diglycerol esters, arachidyl propionate, phytosterol esters, non-crosslinked polyesters resulting from polycondensation between a linear or branched C 4 -C 50 diacid or polycarboxylic acid and a diol or a polyol, the ester resulting from the esterification reaction of hydrogen castor oil born with isostearic acid such as a mono- di- or tri-isostearate, hydrogenated castor oil, a mixture of soy sterols and oxyethylenated (5 0E) oxypropylenated (5 PO), and mixtures thereof.
[0014] An oil-gelling agent is, for example, chosen from polyamides, such as ester-terminated polyamide copolymers (Uniclear®, Union Carbide), or silicone polyamides, or even L-Glutamide derivatives such as dibutyl. lauroyl glutamide, sold by Ajinomoto or a mixture thereof, fumed silicas, clays, Diisostearyl Malate (and) Bis-Dioctadecylamide Dimer Dilinoleic Acid / Ethylenediamine Copolymer copolymers such as Haimalate PAM® marketed by Kokyu Alcohol Kogyo or else copolymers comprising at least one styrene unit, hydrogenated or non-hydrogenated, such as, for example, a hydrogenated styrene / methylstyrene / indene copolymer, dextrin palmitate, block copolymers (diblocks, triblocks, star) styrene / butylene / styrene or styrene / For example, the composition may contain from 10 to 15% by weight of wax (es), from 0 to 10% by weight of powders. expensive, and from 60 to 70% by weight of oil (s).
[0015] The composition comprises, for example, an anhydrous gel containing an oil and a gelling agent for this oil as described in document FR 2 958 159 or FR 2 975 589. According to one embodiment, the gelling agent is a polyamide-type polymer. amide terminated, preferably a tertiary amide terminated polyamide (ATPA) type polymer. As the oil, it is possible to use the mixture of a non-volatile oil of hydrogenated polyalkylene, in particular a hydrogenated polyisobutene and a fatty acid ester comprising at least one free hydroxyl group, for example a hydroxystearate ester, preferably ethylhexyl hydroxystearate, when the gelling agent is an ATPA. The solid emulsion type textures are preferably emulsions whose aqueous phase may comprise water-miscible organic solvents such as ethanol, isopropanol, propylene glycol, ethylene glycol or 1,3-butylene glycol. , dipropylene glycol, C3-C4 ketones, and C2-C4 aldehydes. The aqueous phase (water and optionally the water-miscible organic solvent) may be present at a content ranging from 1% to 95% by weight, in particular ranging from 3% to 80% by weight, and in particular ranging from % to 60% by weight relative to the total weight of the composition. This aqueous phase may, if necessary, be thickened, gelled or structured by further incorporating an aqueous gelling agent known to those skilled in the art.
[0016] The composition may contain inorganic, organic or pearlescent pigments, and optionally fillers. Among the inorganic pigments, mention may be made, for example, of titanium dioxide, optionally surface-treated; black, yellow, red and brown iron oxides; manganese violet; ultramarine blue; chromium oxide; hydrated chromium oxide and ferric blue. Among the organic pigments, mention may be made, for example, of the D & C red pigments No. 19; D & C red No. 9; D & C red No. 21; D & C orange # 4; D & C Orange # 5, D & Cred # 27; D & C red No. 13; D & C red No. 7; D & C red No. 6; D & C yellow No. 5; D & C red No. 36; D & C orange # 10; D & C yellow No. 6; D & C red No. 30; D & C red No. 3; carbon black and lacquers based on cochineal carmine. The pearlescent pigments may be chosen in particular from white pearlescent pigments, such as mica coated with titanium oxide, bismuth oxychloride; and colored pearlescent pigments, such as titanium mica with iron oxides, titanium mica with ferric blue or chromium oxide, titanium mica with an organic pigment of the aforementioned type, as well as dye-based pigments. bismuth oxychloride. The fillers may be chosen from talc, a hydrous magnesium silicate; micas with dimensions of 2 to 200 μm; kaolin, a hydrated aluminum silicate; zinc and titanium oxides; calcium carbonate, carbonate and magnesium hydrocarbonate; silica; zinc, magnesium or lithium stearate, zinc laurate, magnesium myristate; synthetic polymer powders, such as polyethylene, polyesters and polyamides (eg nylon); spherical silica; spherical titanium dioxides; glass and ceramic beads; powders of organic materials of natural origin, such as corn, wheat or rice starches, which may or may not be crosslinked; spheronized or non-crosslinked synthetic polymer powders, such as polyamide powders such as poly-3-alanine powders and nylon powders, polyacrylic or polymethacrylic acid powders, polystyrene powders cross-linked by the divinylbenzene, silicone resin powders, teflon powders. The composition may contain a cosmetic active agent chosen from vitamins A, E, C, B3, provitamines such as D-panthenol, tocopherol phosphate, soothing active agents such as alpha-bisabolol, aloe vera, and restructuring agents. , menthol, honey, emollients, moisturizing agents, anti-wrinkle active agents, plumping and tensing agents, and mixtures thereof. The composition may comprise other ingredients commonly used in cosmetic compositions. Such ingredients may be chosen from antioxidants, perfumes, essential oils, preservatives, cosmetic active agents, moisturizers, sunscreens, surfactants, emulsifiers, dispersing agents, defoamers, neutralizers, stabilizers and their mixtures. The invention covers cosmetic products, in particular cosmetics for making up the skin, obtained according to the process described above. A casting apparatus may be used in the context of the present invention to carry out the method. This apparatus may be connected to a computer having a first software for the three-dimensional drawing of the cosmetic product. A second software can be associated with said computer to convert the drawing into successive deposit data. The casting of the composition on the support can be done in a predetermined form, which has been programmed in this software. The apparatus may further include a three-dimensional control device for operating motors for moving the nozzle in each of the three directions of space. Several heating means serve to maintain the composition described above in the fluid state, at the fluidization temperature and at the casting temperature. The apparatus may optionally comprise at least one means for controlling the temperature of the support, a means for controlling the temperature of the composition, and / or a means for controlling the temperature of the atmosphere, so as to modulate the temperature of the rate of solidification of the composition deposit. The modulation of this speed can be acceleration or deceleration and allow for example a first deposit to adhere to a second deposit that would be performed later, before the first deposit is fully solidified. The apparatus used for implementing the method of the invention comprises at least one casting nozzle with an opening, which nozzle 35 is connected to mechanical means and motors for moving it in the three directions of the invention. 'space. The apparatus is also provided with means for controlling the flow rate of the fluidized composition exiting the nozzle. 302 1 2 1 2 26 Upstream of the nozzle, a feed means makes it possible to adjust the pouring rate of the composition. The mechanical means are driven by the motors to move the nozzle and support, in a predetermined pattern, during casting step c) or after stopping casting in step d) to move the nozzle to another location of the support and make a new deposit, or use another nozzle to cast another composition at the same location. According to one embodiment, the nozzle is driven in a vertical movement (z-axis), and the support is moved on rails in a horizontal path (y-axis and x-axis). The movements can be made in the three directions of the space at the time of casting, but also once the flow canceled, in order to obtain the shape or the spatial arrangement of the desired hues. These mechanical movements are preferably obtained by control signals sent by a CAD / CAM system (computer / controller). In such a system, the design of the cosmetic product is performed on a computer, and then software converts the three-dimensional shape into a data sequence. This data is transmitted to the drive motors as control signals via a computer-assisted control machine. It is possible to produce an object made of thermoplastic material that it is desired to cast, at the same time as the cosmetic composition, but using another nozzle. In this embodiment, drop-shaped deposits of 0.4 to 0.7 mm will preferably be chosen, in particular making it possible to produce very fine gradients. During step a) of the process of the invention, the composition is fluidized by heating at a fluidification temperature greater than or equal to its point of fluidification. The apparatus used in the process therefore comprises a heating device upstream of the pouring nozzle to liquefy the composition. This heating means is advantageously associated with a tank maintaining the fluidized composition with stirring at a constant temperature. By varying the distance between the nozzle and the support while remaining at a distance less than the diameter of the nozzle, compositions of different thicknesses can be made with the same nozzle, in so far as this is the case. nozzle acts as a squeegee. By varying the pouring rate at a given scraping height, it will also be possible to vary the width of the deposit. Advantageously, the flow rate and the casting temperature are adapted as a function of the nozzle diameter chosen, so that the deposit solidifies very rapidly after casting of the composition. During step b) of the process of the invention, the composition is preferably maintained at a temperature above its point of fluidification by heating. The apparatus used in the process therefore preferably comprises a heating and temperature control device located at the pouring nozzle. The process can be carried out at a cosmetics manufacturing site, but also at a point of sale or in a beauty salon. When the method is implemented in a public place, the consumer can be consulted before step a) in order to choose the features, the shape and / or the hue of the cosmetic product that he wants. In this case, it can provide a photo or drawing that will be reproduced on a computer before being converted into order data to make successive deposits. FIG. 1 is a schematic view of a multi-content cosmetic product obtained by the process of the invention. Fig. 2 is a schematic view of a multitexture cosmetic product obtained by the method of the invention. The invention is illustrated by the following examples. Unless otherwise indicated, the values indicated in the context of the present invention result from measurements carried out at 25 ° C. and at 1 atm (105 Pa). EXAMPLE 1: Multi-tone lipstick Preparation of the compositions Three compositions of different hues are prepared: a red, a violet and a rose. The three compositions differ in nature and the relative proportion of pigments and nacres. The ingredients that compose them, as well as their proportions expressed in percentages by mass, are reproduced below. Mixture of polyethylene, beeswax and ozokerite 12.7 Mixture of Bentone and C10-C30 esters 3.4 Mixture of polyisobutene, esters, polydecene and octyldodecanol 64.5 Mixture ( 1) Pigments and nacres or Mixture (2) of Pigments and nacres or Mixture (3) of Pigments and nacres 15.9 Preservatives, active agents or perfumes qs 100 The compositions are obtained by mixing the ingredients with stirring at an equal temperature at 95 ° C. The compositions are cooled to 25 ° C. The hardness and the drop point of the compositions are then measured by the following methods. The hardness of the compositions was measured with a texturometer of the mark STABLE MICRO SYSTEMS, model TA.XT.Plus, by penetration of a hemispherical probe diameter 12.7 mm (called Delrin finger). The measurement was carried out in a Cleopatra jar of 100 ml, and it was repeated three times. The parameters of the measurement were as follows: 20 - Approach 2 mm / s - Test 2 mm / s - Removal 2 mm / s - Penetration 13 mm - Relaxation 25 sec 25 - Triggering force: 2 g. The dropping point was measured with a Mettler Toledo DP70 device equipped with standard 2.8 mm orifice cups, adopting a heating rate of 2.0 ° C / min, a flow temperature of 40 ° C, and an end temperature of 95 ° C. The drop is visually detected using a built-in camera. The first composition has a hardness of 43.3 N and a drop point of 78.2 ° C. The second composition has a hardness of 40.2 N and a drop point of 79.4 ° C. The third composition has a hardness of 40.7 N and a drop point of 77.5 ° C. Pouring apparatus The casting apparatus comprises a non-cosmetic planar support, three nozzles and a feed means for each nozzle. Each nozzle has a circular orifice 0.5 mm in diameter; it is connected to mechanical means allowing its displacement along a vertical path. The support is provided with mechanical means allowing its movement in the plane that it defines. The casting apparatus is placed in a thermostatically controlled enclosure at 25 ° C .; it is connected to a computer which controls the means for feeding the nozzles, the displacement of the nozzles and the displacement of the support, to produce a stick of three-tone lipstick having geometric patterns, which have been predefined. In this process, the compositions are cast by successive deposits in a predetermined sequence programmed by a control software. The first composition is fluidized at a fluidification temperature of the order of 90-95 ° C, introduced into the first nozzle by a first feed means, and then cast at atmospheric pressure on the support to form a first wire of the first composition. The shape of the deposited wire is defined by the movement of the support, which may follow a linear or curved path during casting. The casting of the first deposit of the first composition is stopped by computer control of the feed means 20 of the first nozzle. Then comes to position the second nozzle and the support so as to perform a first thread of the second composition, under the same conditions as those described above to perform the first deposit of the first composition. Pouring of the first deposit of the second composition is then stopped. The control program of the feed means of the three nozzles defines the sequence and the times of casting of the three compositions according to the patterns and shapes that it is desired to obtain. For example, the following series of steps can be carried out: Step i): pour the first deposit of the first composition, then the first deposit of the second composition on the support, at a constant distance between the support and the nozzles, Step ii): Increase the distance between the support and the nozzles by a length equal to the thickness of the first deposits, and sink the first deposit of the third composition, and the second deposit of the first composition on the deposits. performed in the previous step, then Step iii): increasing the distance between the support and the nozzles with a length equal to the thickness of the deposits made in step ii), and casting the second deposit of the second composition, and the second deposit of the third composition on the deposits made in step ii), Step iv): repeat steps i) to iii) increasing the distance between the support and the nozzles between each step, for example to keep constant, from one step to another, the gap between the nozzle and the surface on which the deposits must be made. Once the sequence of steps is complete, the product consisting of successive deposits is separated from the support of the device. Following this sequence, the product obtained may be a stick-shaped lipstick as shown in Figure 1. This lipstick consists of dodecahedron-shaped domains. The choice of colors is such that the whole restores a harmonious and aesthetic whole.
[0017] EXAMPLE 2 Multi-texture Lip Balm Preparation of the Compositions A transparent composition (1) is prepared according to the same process as that described in Example 1. The ingredients which compose it, as well as their proportions expressed in percentages by weight, are reproduced. below. Phase A Bis-Dioctadecylamide Dimer Dilinoleic Acid / Ethylenediamine Copolymer 21 Ethyl Hexyl Hydroxysteate 11 Hydrogenated Polyisobutene 56 Phase B Hydrogenated Styrene Copolymer / Methylstyrene / Indene 10 Cetyl Alcohol 3.2 Dibutyl Lauroyl Glutamide 0.4 Dibutyl Ethylhexanoyl Glutamide 0.4 Prepared the composition (2) stained according to the same process as that described in Example 1. The ingredients which compose it, as well as their proportions expressed in percentages by weight, are reproduced below. Polyethylene, beeswax and ozokerite wax 10.2 Bentone, C10-C30 esters 25.5 Polyisobutene, esters, polydecene and octyldodecanol 60.3 Pigments and pearlescent agents 0.7 Preservatives, active agents or perfumes qs 100 We measure the hardness and the drop point of the two compositions by the methods used in Example 1. The composition (1) has a hardness of 6.4 N and a drop point of 82.8 ° C. The composition (2) has a hardness of 18.3 N and a flash point of 75.4 ° C.
[0018] Casting method At first, at least one cylindrical deposition of the transparent composition is carried out on the support. In a second step, successive superimposed cylindrical slices are poured successively, each of which comprises deposits of the transparent composition (1) and of the colored composition (2). In a third step, at least one deposition of the transparent composition is carried out until a cylinder of the desired height is formed in the continuity of the cylinder obtained in the preceding step. The product obtained is a stick-shaped lip balm (Figure 2).
[0019] The first transparent composition gives a glimpse of the second colored composition which forms for example a Moebius ribbon. The use of the product allows to deposit on the lips a film both brilliant, thanks to the composition (1) and moisturizing, thanks to the composition (2).
[0020] EXAMPLE 3: Multi-material foundation Preparation of a composition A composition is prepared according to the same process as that described in Example 1. The ingredients which compose it, as well as their proportions expressed in percentages by weight, are reproduced below. after. Polyethylene wax 3 Beeswax 3 Hydrogenated glycerides 3.7 Hectorite 0.8 Esters 5.45 Oils 9.7 Liquid sunscreens 7.5 Pigments 19 Water qs 100 Emollients and preservatives 5.6 Vinyl dimethicone / methicone silsesquioxane crosspolymer cellulose gum and polymethylsilsesquioxane 4.6 Solid solar filters 1.5 The hardness and the dropping point of the two compositions are measured by the methods used in Example 1. The composition has a hardness of 12.8 N and a drop point equal to 58.4 ° C. Casting Method Several successive deposits of the foundation composition are carried out according to the process of the invention, using as support a three-dimensional object. The deposits are made so as to cover the entire surface of the support to a constant thickness, so that the support is coated and not visible. The product obtained is a foundation with a fresh and aqueous effect. The cosmetic composition is supported by the support and has the same shape. The cosmetic composition can be removed with a brush. As and when samples of the composition, the support appears to the user. The support may be of thermoplastic polymer and may have been shaped according to a process of casting by successive deposits, or by molding.

权利要求:
Claims (13)
[0001]
REVENDICATIONS1. Process for the production of a cosmetic product by casting at least one oil-containing composition with a fluidification point between 30 and 150 ° C and a mean hardness - measured at 25 ° C using a texturometer equipped with a hemispherical probe - between 0.5 and 80 N, which process comprises the following succession of steps: a) the fluidification of the composition by heating it to a fluidification temperature greater than its point fluidizing, b) introducing the fluidized composition into at least one casting nozzle, c) pouring the fluidized composition, via the nozzle, onto a support, to form a first deposit of said composition on said support, and the relative movement - in at least one of the three directions of the space - of the nozzle with respect to said support, which deposit essentially retains its shape after solidification, d) the stop of the casting, e) the relocation atif of the nozzle relative to the support, and f) repeating steps a) to e) at least once to form at least one further deposit on said support, using the same composition or other composition that contains an oil, which has a fluidification point between 30 and 150 ° C, and has an average hardness measured at 25 ° C using a texturometer equipped with a hemispherical probe of between 0.5 and 80 N .
[0002]
2. Method according to claim 1, characterized in that the nozzle is provided in the lower part of an orifice, one of its dimensions is from 0.01 to 5 mm.
[0003]
3. Method according to claim 1, characterized in that the casting temperature is less than or equal to the fluidification temperature.
[0004]
4. The method of claim 1 characterized in that the fluidization point is the melting temperature T50 at which 50% of the composition is liquid, the melting temperature T80 at which 80% of the composition is liquid, the melting temperature T90 at which 90% of the composition is liquid, the drop point of the composition or the sol-gel transition temperature of the composition. 3 02 12 12 34
[0005]
5. The method of claim 1 characterized in that the dynamic viscosity of the composition at the casting temperature and at atmospheric pressure is between 1 and 10,000 mPa.s, for example between 100 and 500 mPa.s. 5
[0006]
6. The method of claim 1 characterized in that the fluidification temperature is greater than 1 to 15 ° C at the point of fluidification of the composition.
[0007]
7. The method of claim 1 characterized in that the composition is provided with a dropping point greater than 50 ° C, for example between 70 and 85 ° C.
[0008]
8. Method according to claim 1, characterized in that the support is of a cosmetic or non-cosmetic nature. 15
[0009]
9. Process according to claim 1, characterized in that it comprises a step g) of casting a thermoplastic material produced previously, subsequently or simultaneously with step c). 20
[0010]
10. Multi-colored, multi-texture or multi-material cosmetic product, in particular a make-up product, a care product, a sunscreen product or a perfuming product, comprising a support and at least one deposit of a cosmetic composition solid material containing at least one oil which has a fluidizing point between 30 and 150 ° C, and which has an average hardness - measured at 25 ° C using a texturometer with a hemispherical probe - Between 0.5 and 80 N, characterized in that the deposit has the form of son and / or drops less than 5 mm thick. 30
[0011]
11. Multi-colored, multi-texture or multi-material cosmetic product, in particular a make-up product, a care product, a sunscreen product or a perfuming product, comprising a plurality of domains consisting of different cosmetic compositions that are solid to the skin. ° C each containing at least one oil independently of one another, the compositions being independently of one another a fluidizing point between 30 and 150 ° C, and of medium hardness measured at 25 ° C. using a texturometer equipped with a hemispherical probe-between 0.5 and 80 N, characterized in that the product does not comprise a stack of plane layers parallel to each other, nor a succession of coaxial cylindrical layers, nor a plane cosmetic surface.
[0012]
12. Cosmetic product according to claims 10 or 11, characterized in that it comprises perforated forms, ribbon interlacing, porous surfaces, or color gradients.
[0013]
13. Cosmetic product according to claims 10, 11 or 12, characterized in that it comprises a packaging provided with one or more compartments, one of these compartments containing different compositions in contact with each other.

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同族专利:

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公开号 | 公开日

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ES2863563T3|2021-10-11|

---

EP3145588A1|2017-03-29|

---

EP3145588B1|2021-03-10|

---

US20170135912A1|2017-05-18|

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CN106572946A|2017-04-19|

---

WO2015177484A1|2015-11-26|

---

US10912718B2|2021-02-09|

---

CN106572946B|2020-12-11|

---

FR3021212B1|2017-09-15|

---

JP2017518983A|2017-07-13|

---

JP6705603B2|2020-06-03|

---

KR20170007344A|2017-01-18|

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法律状态:
2015-05-27| PLFP| Fee payment|Year of fee payment: 2 |

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2015-11-27| PLSC| Search report ready|Effective date: 20151127 |

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2016-04-22| PLFP| Fee payment|Year of fee payment: 3 |

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2017-04-21| PLFP| Fee payment|Year of fee payment: 4 |

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2018-04-23| PLFP| Fee payment|Year of fee payment: 5 |

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2019-04-19| PLFP| Fee payment|Year of fee payment: 6 |

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2020-04-22| PLFP| Fee payment|Year of fee payment: 7 |

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2021-04-21| PLFP| Fee payment|Year of fee payment: 8 |

优先权:

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申请号 | 申请日 | 专利标题

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FR1454677A|FR3021212B1|2014-05-23|2014-05-23|MUTLI-COMPOSITIONS COSMETIC PRODUCTS AND METHOD FOR THE PRODUCTION THEREOF|FR1454677A| FR3021212B1|2014-05-23|2014-05-23|MUTLI-COMPOSITIONS COSMETIC PRODUCTS AND METHOD FOR THE PRODUCTION THEREOF|

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KR1020167034053A| KR20170007344A|2014-05-23|2015-05-22|Multi-composition cosmetic products and method for manufacturing same|

---

US15/313,026| US10912718B2|2014-05-23|2015-05-22|Multi-composition cosmetic products and method for manufacturing same|

---

ES15732791T| ES2863563T3|2014-05-23|2015-05-22|Multicomposition cosmetic products and their manufacturing process|

---

EP15732791.7A| EP3145588B1|2014-05-23|2015-05-22|Multi-composition cosmetic products and method for manufacturing same|

---

CN201580039766.3A| CN106572946B|2014-05-23|2015-05-22|Multi-composition cosmetic product and method of making same|

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PCT/FR2015/051368| WO2015177484A1|2014-05-23|2015-05-22|Multi-composition cosmetic products and method for manufacturing same|

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JP2016567907A| JP6705603B2|2014-05-23|2015-05-22|Multi-composition cosmetic product and method for producing a multi-composition cosmetic product|