Applicator for applying cosmetic product, notably for applying mascara to the eyelashes

Abstract

The present invention relates to an applicator member (1) for an applicator for applying cosmetic product, notably for applying mascara to the eyelashes, said applicator member comprising a metal core (2) having an end (2a) for connecting to a gripping member (5), characterized in that said connecting end is shaped so as to be able to form a joint head that is able to engage in a corresponding housing in the gripping member, and in that said connecting end is produced by moulding in one piece with the metal core.

Claims

1. An applicator member for an applicator for applying a cosmetic product to eyelashes, said applicator member comprising: a metal core having a connecting end for connecting to a gripping member, said connecting end being shaped so as to form a joint head that is able to engage in a corresponding housing in the gripping member, wherein said connecting end is produced by molding in one piece with the metal core, wherein the metal core is comprised of at least two metal strands twisted together, wherein the joint head is a ball joint head, and wherein the connecting end has at least one orientation indexing element.

2. The applicator member according to claim 1, wherein the joint head has a spherical overall shape.

3. The applicator member according to claim 1, wherein the joint head is a pivot joint head.

4. The applicator member according to claim 1, wherein the two metal strands are obtained from one and the same metal wire folded on itself.

5. The applicator member according to claim 1, wherein the core has a second end situated away from its connecting end, said second end being rounded.

6. The applicator member according to claim 1, wherein said applicator member is a mascara brush.

7. A cosmetic applicator comprising: an applicator member mounted at a free end of a gripping member, wherein the applicator member is an applicator member according to claim 1.

8. A cosmetic applicator according to claim 7, wherein the gripping member comprises a stem, the applicator member being mounted at one end of said stem.

9. A cosmetic applicator according to claim 7, wherein the gripping member forms a cap for a cosmetic product container.

10. A device for applying a cosmetic product, comprising at least one container that is intended to form a reservoir for said cosmetic product, and at least one removable cap for closing and opening said reservoir, wherein the cap is a cosmetic applicator according to claim 9, the applicator member being disposed inside the container when the cap closes said container.

11. A makeup kit comprising at least one gripping member and a plurality of applicator members according to claim 1.

12. The applicator member according to claim 1, wherein said cosmetic product is mascara.

Description

(1) The present invention will be understood better from reading the following detailed description with regard to the appended drawing, in which:

(2) FIG. 1 is a schematic depiction of an applicator according to the invention, the applicator member being separated from the gripping member.

(3) FIG. 2 is a schematic depiction in longitudinal section of the applicator from FIG. 1, the applicator member and the gripping member being assembled and aligned.

(4) FIG. 3 is a schematic depiction in longitudinal section of the applicator from FIG. 2, the applicator member being oriented differently.

(5) As shown in FIGS. 1 to 3, an applicator 10 for applying a cosmetic product, notably for applying mascara to the eyelashes, comprises an applicator member 1 and a gripping member 5.

(6) The applicator member 1 comprises a metal core 2 formed by helically winding two arms of a metal wire which has been folded in a U-shape before the arms are twisted.

(7) Preferably, the core 2 may be produced from a metal alloy, in particular from an alloy of nickel, titanium, or from steel.

(8) Bristles 3 are implanted radially between the arms of the wire. When the arms of the wire are twisted, the bristles are clamped and held between the helical turns of the core 2. In this way, the applicator member 1 forms a brush.

(9) Although illustrated by a brush, it should be noted that further types of applicator member having a metal core are possible.

(10) The bristles 3 may be made of natural or synthetic fibres. The bristles may also possibly be flocked. The bristles 3 may be of different natures and/or types. They may for example have different diameters, different lengths, radially and/or longitudinally, different sections and/or different shapes.

(11) The core 2 of the applicator member 1 may be straight, that is to say substantially rectilinear, or curved. The core 2 may also be central or off-centre with respect to a cross section of the applicator member 1, in this case with respect to a cross section of the brush.

(12) The applicator member 1 is intended to be mounted at one end of the gripping member 5.

(13) To this end, the metal core 2 of said applicator member 1 has a connecting end 2a which is shaped so as to be able to form a joint with the gripping member 5. More specifically, the connecting end 2a forms a joint head intended to engage with a corresponding housing in the gripping member.

(14) In this case, the connecting end 2a has a spherical overall shape. The connecting end 2a thus forms a ball joint head.

(15) The connecting end is produced in one piece with the core 2.

(16) To this end, a terminal part of the metal wire forming the core 2 is heated up to a temperature allowing it to be shaped.

(17) In the case of a curved core 2, said core 2 can be curved before or after the end 2a is shaped.

(18) Such a shaping process is described in the document U.S. Pat. No. 8,783,787.

(19) In particular, the end 2a forming a ball joint head is produced by high-energy fusion of a terminal portion of the metal wire forming the core 2. This heating step makes it possible to melt the end of the brush in order to shape it and produce the ball joint head produced in one piece with the core 2.

(20) The end 2a forming a ball joint head is thus an integral part of the core 2 of the applicator member 1, a metallurgical connection being formed between the end 2a and the rest of the core 2. Moreover, when fused in this way at their end, the two arms of the metal wire are inseparable and cannot be untwisted.

(21) Furthermore, it is important to note that such shaping does not require the use of any particular chemical agent.

(22) Numerous heating techniques can be employed, in particular techniques used for welding. Thus, heating by way of laser, by way of an electric arc torch, a plasma torch, etc., can be cited. The heating method will be adapted to the material of which the core 2 is made.

(23) The shaping of the end 2a by heating and fusion from the material of which the core 2 is made also makes it possible to produce an end 2a that has a smooth external surface that is easy to clean.

(24) The end 2a is shaped so as to be able to produce a ball joint connection with a corresponding housing in the gripping member 5. In particular, the end 2a has a ball shape, that is to say a shape that is spherical overall.

(25) The size of the end 2a formed in this way depends on the quantity of metal wire shaped. Depending on the desired size of the end 2a, it will be appropriate to provide a more or less long terminal portion of metal wire that is available.

(26) The end 2a may be shaped, for example, in the following manner.

(27) First of all, the applicator member 1 is fitted on a support for holding it in position. Preferably, the applicator member is held at a part of the core 2 that is situated close to the terminal portion intended to form the end 2a.

(28) The terminal portion intended to form the end 2a is introduced through a refractory screen intended to protect the rest of the core 2 and the bristles 3 from the heat released during the fusion step.

(29) The end 2a is subjected to a fusion device comprising a heating end for moulding the melted metal part into a ball.

(30) Advantageously, the applicator member 1 has a second end 2b situated away from the end 2a having a rounded shape. When use is made of a single metal wire folded on itself, the U shape naturally constitutes such a rounded end 2a. When use is made of two separate metal arms, the method according to the document U.S. Pat. No. 8,783,787 can be used to produce such a rounded end 2a.

(31) In order to form the applicator 10, the applicator member 2 is mounted at one end 5a of the gripping member 5 that is in the form of a stem.

(32) The end 5a has a housing designed to receive the end 2a of the applicator member 2 and consequently has a shape substantially complementary to said end 2a.

(33) The stem is preferably produced from a thermoplastic material, notably by moulding or extrusion.

(34) The end 2a is force-fitted into the interior of the housing. A ball joint connection is thus formed.

(35) Depending on the diameter of the opening in the housing in the end 5a and on the strength of the material of which the stem is made, the fitting of the applicator member 2 will require more or less force. The applicator member could thus be rendered removable by the user or designed not to be easily removable.

(36) The internal dimension of the housing in the end 5a of the gripping member compared with the external dimension of the end 2a of the applicator member also makes it possible to vary the clamping force and the resistance to orientation of the brush.

(37) A minimum resistance should be ensured in order that application of the product does not cause the brush to move and the orientation to change. There also exists a maximum resistance beyond which the ball joint could become difficult to handle by a user or beyond which the core 2 could twist.

(38) Furthermore, the end 5a also makes it possible to define the amplitude of orientation of the applicator member 2 with respect to the gripping member 5. More specifically, the housing in the end 5a has an introduction neck having a lip such that it constitutes a stop for the applicator member 1. Depending on the length of the introduction neck, the amplitude of travel of the applicator member 1 will be greater or lesser.

(39) As shown in the figures, the end 2a forming a ball joint head is smooth.

(40) Alternatively, the end 2a forming a ball joint head may be shaped so as to have irregularities of the tooth type (punctiform irregularities) or rib type (peripheral at least partially elongate irregularities) that are able to engage with one or more corresponding cavities in the housing in the end 5a. The teeth or ribs thus make it possible to clip the applicator member in one or more given orientations.

(41) Of course, the reverse configuration is possible, i.e. providing the teeth or irregularities inside the housing in the end 5a of the gripping member 5, the corresponding cavities being provided on the end 2a forming a ball joint head.

(42) By way of example, the production of positioning teeth and spikes on a joint, in particular a ball joint, is described in the document KR20110107224.

(43) Alternatively, it is also possible to produce one or more peripheral ribs, in different inclinations, that are able to engage with one or more corresponding grooves that have different inclinations.

(44) For example, the end 2a forming a ball joint head may have a peripheral rib that extends in a plane substantially perpendicular to a longitudinal axis of the core 2 of the applicator member 1. In a complementary manner, the housing in the end 5a of the gripping member 5 could then have a peripheral groove that likewise extends in a plane substantially perpendicular to a longitudinal axis of the gripping member 5. Further peripheral grooves which are oriented differently could make it possible to define different inclined positions.

(45) In particular, provision could be made of positioning elements for ensuring at least one clipping of the applicator member 1 in a position such that a longitudinal axis of the core 2 coincides more or less with a longitudinal axis of the gripping member 5 (alignment of the applicator member 1 with the gripping member 5). In a complementary manner, the positioning elements will make it possible to ensure clipping of the applicator member 1 in a position such that the longitudinal axis of the core 2 forms a non-zero angle with a longitudinal axis of the gripping member 5. Preferably, several angles will be possible, in one or more radial directions.

(46) The gripping member 5 is intended to be fixed to a container cap and, to this end, has an end 5b having clipping elements. These clipping elements are intended to engage with corresponding elements on the cap.

(47) Although illustrated by way of an applicator member 1 having a connecting end 2a that forms a ball joint connecting head, further forms of the joint are conceivable, and the connecting end 2a may notably form a pivot joint head.

(48) Such a connecting end could be produced simply by flattening the spherical end so as to obtain a substantially flat connecting end having a substantially circular cross section (representing a profile similar to that in FIGS. 1 to 3). The housing in the gripping member 5 is accordingly shaped and can then be in the form of a slot with a circular end.

(49) The pivot connection thus formed can be smooth or have positioning elements as described above.