WO2017059198A1 - Cosmetic applicator systems - Google Patents

Abstract

A makeup brush has a generally cylindrical body having a first end adapted to be rotatably couple to a motorized makeup brush support, a second end defining a recess therein that is adapted to receive a plurality of bristles, and a central axis that extends between the first end and the second end. A plurality of bristles each have a first free end and a second bounded end, where the second bounded end is configured to be received in the recess formed in the generally cylindrical body second end. In various embodiments, the free ends of a first group of the plurality of bristles are recessed with respect to the free ends of a second group of the plurality of bristles. Furthermore, the first group of the plurality of bristles is positioned radially closer to the central axis than the second group of the plurality of bristles.

Description

COSMETIC APPLICATOR SYSTEMS

CROSS-REFERENCE TO RELATED APPLICATIONS

[0001] This application claims priority to U.S. Patent Application No. 15/073,584, filed March

17, 2016, entitled "Cosmetic Applicator Systems," which claims the benefit of U.S. Provisional Patent Application No. 62/236,840, filed October 2, 2015, entitled "Computerized Cosmetic Brushes," the entire disclosures of which are incorporated herein by reference in their entirety.

BACKGROUND

[0002] Makeup brush applicators consist of two main components: a handle and brush head (the

"brush head"), which are banded bristle hair (the "bristles") made of either natural or synthetic fibers and configured in such a way as to effectively apply makeup, lotions, serums or creams (the "makeup") to parts of the body as required by the user (the entire tool is hereinafter referred to as the "makeup brush applicator"). The handles and brush heads are each designed and constructed in different shapes, sizes, colors, finishes and materials for functional and aesthetic reasons. The brush head shapes have been designed to apply specific kinds of makeup using certain techniques, methods or motions. For instance, a foundation brush designed to apply makeup evenly across a larger area, such as an entire face, requires a different shape than a blush brush designed to apply makeup more narrowly to the cheek area of the face.

[0003] Since traditional makeup brushes have been manual tools, brush head shape have been designed for manual use only. Brush-head shapes include but are not limited to flat, domed, or sloped straight across from one side to the other. As a manual tool, traditional makeup brush applicators require the user to move the makeup brush applicator with certain sweeping and circular motions or techniques in order to function effectively. These motions cause the bristles to bend and sweep in one direction so to uniformly apply the makeup.

[0004] Certain automated makeup brush applicators include a brush head that spins on an axis with the bristles oriented parallel to the axis on the end of the handle. Being automated, this type makeup brush applicator requires a simpler motion and less effort or skill by the user compared with traditional makeup brushes in order to achieve similar results. This type brush head applicator causes multiple forces to act on the bristles as the brush head may be spinning (e.g., rotating about its axis) and moving linear at the same time. Since automated spinning makeup brush applicators have not existed until recently, no brush-head design has even contemplated the impact of the spinning motion of the brush head on the bristles' ability to perform uniformly.

[0005] When a traditional brush head design is used for a spinning brush head, the bristles will bend or flare in a sweeping motion, but also in a concentrated revolving motion. The bristles furthest from the center-axis point may bend or flare more because they encounter little-to-no resistance from bristles further away from the center-axis point. Conversely, the bristles closest to the center-axis point will bend or flare the least since they encounter resistance from all of the other bristles of the spinning brush head. Therefore, when using a traditional brush-head design for a spinning brush head, the combination of the banded-bristle density and the revolving motion of the bristles results in the center-area bristles (1) not bending and (2) sticking out further than any other bristles of the brush head. These shortcomings result in a reduction in the overall effectiveness of the brush head, and potential discomfort for the user since the center bristles exert force on the user' s skin since they do not bend or flare.

[0006] Various embodiments of the present brush designs recognize and address the foregoing considerations, and others, of prior art brush designs and methods of use.

SUMMARY

[0007] In general, in various embodiments, a motorized makeup brush comprises an elongated motorized brush support comprising: (1) a first end; (2) an opposite second end; (3) a cavity formed there between; and (4) an axis that extends from the first end to the second end. The motorized makeup brush further comprises: (1) a motor mounted in the elongated motorized brush support cavity, the motor having a shaft that rotates; and (2) a coupling formed at the elongated motorized brush support second end that is configured to releasably attach to a makeup brush; and (3) at least one makeup brush head. The at least one makeup brush head comprises: (1) a generally cylindrical body comprising: (a) a first end configured to releasably couple to the coupling; and (b) a second end defining a recess therein that is configured to receive a first plurality of bristles and a second plurality of bristles, the recess being centered about the axis. The at least one makeup brush head further comprises: (1) a first plurality of bristles where each of the first plurality of bristles have a free end and a bound end; and a second plurality of bristles where each of the second plurality of bristles have a free end and a bound end In particular embodiments, the first plurality of bristles surrounds the second plurality of bristles, the free ends of at least a first group of the second plurality of bristles are recessed with respect to the free ends of at least a second group of the first plurality of bristles, and the bounded end of the bristles of the first and second plurality of bristles are mounted in the at least one makeup brush second end recess.

[0008] According to various embodiments, a makeup brush for use with a motorized makeup brush support comprises a generally cylindrical body comprising: (1) a first end adapted to be rotatably couple to a motorized makeup brush support; (2) a second end that defines a recess therein, the recess being adapted to receive a plurality of bristles; and (3) a central axis that extends between the first end and the second end, where the generally cylindrical body is adapted to rotate about the central axis when the makeup brush is coupled to the motorized makeup brush support. The makeup brush further comprises a plurality of bristles, such that each of the plurality of bristles comprises: (1) a first free end; and (2) a second bounded end, where the second bounded end is configured to be received in the recess formed in the generally cylindrical body second end. In various embodiments, at least a first group of the plurality of bristles are of a first length, at least a second group of the plurality of bristles are of a second length that is longer than the first length, and the at least a first group of the plurality of bristles is positioned radially closer to the central axis than the at least a second group of the plurality of bristles.

[0009] A motorized makeup brush comprises an elongated motorized brush support comprising

(1) a first end, (2) an opposite second end, (3) a cavity formed therebetween, and (4) an axis that extends from the first end to the second end. A motor is mounted in the elongated motorized brush support cavity and has a shaft that rotates. A coupling is formed at the elongated motorized brush support second end that is configured to releasably attach to a makeup brush. At least one makeup brush comprises (1) a generally cylindrical body comprising (a) a first end adapted to be rotatably couple to the coupling, (b) a second end that defines a recess therein, the recess being adapted to receive a plurality of bristles, and (3) a central axis that extends between the first end and the second end, where the generally cylindrical body is adapted to rotate about the central axis. A plurality of bristles each comprising (1) a first free end and (2) a second bounded end are mounted in the recess formed in the generally cylindrical body second end. The plurality of bristles are configured so that a first group of the plurality of bristles are surrounded by a second group of the plurality of bristles, and the free ends of the first group of the plurality of bristles are recessed with respect to the free ends of the second group of the plurality of bristles.

BRIEF DESCRIPTION OF THE DRAWINGS

[0010] Having thus described various embodiments in general terms, reference will now be made to the accompanying drawings, which are not necessarily drawn to scale, and wherein:

[0011] FIG. 1A is an illustration of a motorized handheld applicator assembly according to a particular embodiment.

[0012] FIGS. IB - 1C show various embodiments of an applicator cup for use with the motorized handheld applicator assembly of Figure 1A.

[0013] FIGS. ID - IE show various embodiments of bristle arrangements for use with the applicator cups of FigureslB - 1C.

[0014] FIG. IF is an illustration of an applicator cup design according to a particular embodiment.

[0015] FIG. 1G - II are cross-sectional views of a brush head, according to particular embodiments.

[0016] FIG. 2 is an illustration of a motorized brush support and a plurality of cosmetic brushes forming a kit, according to a particular embodiment.

[0017] FIG. 3 is an illustration of a surface area of the human body (i.e., the face) that is designated to receive a cosmetic, divided into zones, according to a particular embodiment.

[0018] FIG. 4 is an illustration of: (1) the surface area of the human body (i.e., the face) shown in Figure 3; and (2) the plurality of cosmetic brushes shown in Figure 2. As in Figure 3, the surface area is divided into zones. Figure 4 shows, for example: (1) that an upper eyelid shadow brush 220D is particularly suited for use in an upper eyelid zone 310D; (2) that an under-eye concealer brush 220C is particularly suited for use in an under-eye zone 310C; and (3) that a blush blaster brush 220E is particularly suited for use in an "S Zone" 310E on the user' s face. [0019] FIG. 5 shows exemplary handles for use with an applicator cup, such as the applicator cups shown in FIGS. IB and 1C.

[0020] FIG. 6 is a block diagram of a computerized rotating makeup brush system in accordance with an embodiment of the present system.

[0021] FIG. 7 is a block diagram of the brush operations server of FIG. 6.

[0022] FIG. 8 is an exemplary computerized makeup brush for use in the computerized rotating makeup brush system of FIG. 6. In this embodiment, the brush is a rotating makeup brush. However, it should be understood that the brush could, alternatively, be a non-rotating brush.

[0023] FIG. 9 is a cross-sectional view of a brush head according to a further embodiment.

[0024] FIG. 10A - 10B are rotating makeup brushes according a further embodiment.

DETAILED DESCRIPTION

[0025] Various embodiments of the present invention will now be described more fully hereinafter with reference to the accompanying drawings, in which various embodiments of the invention are shown. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. Like numbers refer to like elements throughout.

Overview

[0026] In automated makeup applicators (e.g., motorized) where a rotatable makeup brush head is coupled to a motorized applicator handle, the makeup brush head spins causing the bristles to flare radially outward from the axis of rotation. Depending on the length, rigidity of the bristles, the density of the bristles, the speed and torque of the motor spinning the brush head, and the position of the bristles, the bristles may flare out or bend differently. Using a traditional brush head design (e.g., bristle configuration), each bristle bends or flares differently depending on the position of the bristle with respect to every other bristle. Outer bristles will flare radially outward from the axis of rotation of the brush head while central bristles may not bend or flare at all. This occurs because bristles closer to the center rotate about a smaller radius of curvature than those bristles positioned further away from the axis of rotation. Moreover, bristles located closer to the axis of rotation are prevented from bending or flaring due to the multitude of bristles positioned further away from the axis of rotation. As a result, the central bristles may not bend or flare at all and remain straight and rigid forming a point that protrudes beyond the plane that intersects the ends of the outer bristles, thereby causing discomfort and uneven touching on the surface of the user's skin.

[0027] The present brush designs eliminate the short comings of prior brush designs by creating a makeup brush where the central bristles are shorter than at least a portion of the outer surrounding bristles. According to various embodiments, a brush head design is disclosed for use with a spinning brush head attached to an automated (e.g., motorized) makeup brush applicator. In particular embodiments, the brush head comprises a generally cylindrical body having a first end configured to releasably attach to the motorized handle and a second end that defines a recess therein that is configured to receive a plurality of bristles. In various embodiments, the plurality of bristles is configured such that the outer bristles are of a longer length than the inner bristles thereby forming a concave surface across the free ends of the bristles. In this way, when the brush head is spinning relative to the motorized handle, the outer bristles can flare or bend with respect to the central bristles (e.g., the bristles closer to the axis of rotation) so that the bristle ends during rotation conform to the surface to which a cosmetic is being applied.

[0028] In various embodiments where the bristles ends define a generally circular shape, the furthest-most exterior bristles of the brush (e.g., those furthest from the axis of rotation) appear as a certain length as they protrude from the makeup brush head body while the bristles closer to the axis of rotation appear as a different length (e.g., a shorter length the closer you get to the axis of rotation) thereby creating an angle or slope down to the center (e.g., the axis of rotation of the brush. That is, the surface defined by the free ends of the bristles is sloped downward toward the axis of rotation in a straight slant, along a radius of curvature or a combination of both. In various embodiments, the angle of slope may be between about 5 degrees to about 25 degrees in some embodiments, between about 5 to 20 degrees in other embodiments, and between about 8 to 18 degrees in preferred embodiments. For makeup brushes whose bristle free ends generally define a convex surface, the pressure exerted by the central bristles (due to the inability for the central bristles to bend of flare) may be minimized or eliminated by creating a concave central portion defined by the free ends of the central most bristles (e.g., those bristles at and around the axis of rotation) of the makeup brush thereby forming a recess about the axis of rotation.

[0029] In various embodiments, the concave surface defined by the free ends of the bristle may be formed using various methods. In a first method, bristles positioned radially closer to the axis of rotation may be formed of a first length while bristles positioned radially further from the axis of rotation may be formed of a second length. In this way, the free bristle ends define a recessed portion that surrounds the axis of rotation. In a second method, all bristles may be of a first length. A plurality of bristles may be inserted into a cup like structure where the bottom surface of the cup defines the shape of the surface to be defined by the free bristle ends. The ends of the bristles to be bound may be tapped or urged into the cup so that the free ends of the bristles conform to the shape defined by the bottom surface of the cup. The ends of the bristles to be bound and mounted into the makeup brush head may be surrounded by a metal band to maintain the cross-sectional shape of the plurality of bristles. That is, the bristles are generally displaced with respect to one another so that the banded end of the bristles takes on the general shape of the bottom surface of the cup. Once all of the bristles are seated properly in the cup, the band may be crimped or fastened around the banded end of the bristles to secure the bristles into a bundle that retains the shape defined by the free ends of the bristles. Once the band is crimped or fastened, the banded bristled may be removed from the cup and a portion of the banded end of the bristles may be cut thereby creating a substantially flat surface defined by the cut banded ends of the bristles. The banded end of the bristles may then be mounted into the makeup brush head and secured in place using any suitable fastener (e.g., glue, hot glue, adhesive, press-fit, etc.).

[0030] In still other embodiments, the makeup brush applicator may be formed in two parts. In some embodiments, the makeup brush body may be formed from a first ring shaped cup body that is mounted to but axially moveable with respect to a second central generally cylindrical shaped cup body. In these embodiments, a first plurality of bristles is mounted in the first ring shaped cup body and a second plurality of bristles is mounted in the second central generally cylindrical shaped cup body. Because the first ring shaped cup body is moveable with respect to the second central generally cylindrical shaped cup body, when the first ring shaped cup body is moved axially forward with respect to the second central generally cylindrical shaped cup body, the bristle ends of the first plurality of bristle are axially forward of the bristles ends of the second plurality of bristle (e.g., or the bristle ends of the second plurality of bristles are recessed from the bristle ends of the first plurality of bristles thereby forming a concave surface (e.g., linearly sloped or sloped along a curve) defined by the free ends of the first plurality and second plurality of bristle.

[0031] Rotatable makeup brush heads for use with an elongated motorized brush support are generally formed from a brush cup comprising a generally cylindrical body having a first end adapted to rotatably couple to the motorized brush support and a second end that defines a recess therein that is configured to receive the plurality of bristles. In various embodiments, the free ends of the bristles are what define the application surface of the brush and the opposite ends of the bristles are typically bound to together using one or more of a band and/or glue. When the banded ends of the bristles are inserted into the recessed second ends of the brush cup, it is important that the center of the banded bristles align with the axis of rotation of the brush cup to minimize and/or eliminate wobble of the brush cup as it is spinning with respect to the motorized brush support. Centering the bound bristles in the brush cup may be accomplished by one or more of the following: (1) positioning the banded bristles in the center of the recess; (2) facilitating even distribution of glue within the brush cup; and (3) allowing for more glue to fill the brush cup well so as to provide extra weight. The above is accomplished by forming a plurality of ridges on the walls that define the recess in the second end of the generally cylindrical body of the brush cup that extend radially inward toward the axis of rotation of the brush cup. In this way, the ridges help to guide the banded bristles into the correct position and provide for an equal spacing between the walls of the recess and the banded bristles.

[0032] In various embodiments, three ridges may be formed that extend from the walls of the recess radially inward. The three recess guided the banded bundle of bristles into the recess while aligning the center of the banded bristles with the axis of rotation of the brush cup. In carious embodiments, the ridges may be between .2 - .4 mm in depth and may form a press-fit (e.g., friction fit) between the ridges and the bundle of bristles. In various embodiments, the depth of each ridge may be smaller at the mouth of the recess to allow the bundle of bristles to easily be guided into the brush cup. In other embodiments, additional ridges may be formed at equal spacing along the inner circumference of the recess to increase the accuracy of centering of the bundle of bristles with respect to the axis of rotation and to provide additional points of contact against the band holding the bundle of bristles together.

Exemplary Makeup Application Kit

[0033] As shown in Figure 1A, a makeup application kit according to various embodiments includes a handheld applicator assembly 100 that includes a motorized applicator support (e.g., a motorized brush support 102) and an applicator 200 (e.g., a makeup brush). In particular embodiments, the applicator 200 is mounted adjacent (e.g., to) the end of the applicator support 102, and the motorized applicator support 102 is adapted to (e.g., configured to) selectively rotate the applicator 200 at least substantially about the applicator's 200 central axis 116 (e.g., axis of rotation). This allows the applicator 200 to move in a smooth, rotational motion while the user is applying makeup or other cosmetics of any suitable kind to the skin. The applicator assembly 100 is particularly useful in allowing users to uniformly apply makeup, and other cosmetics, to specific portions of their face. During this process, the applicator assembly 100 may be used to blend (e.g., substantially evenly blend) multiple cosmetics together. However, the applicator 100 may also be used to apply substances to other portions of the user's body. For example, the applicator 100 may be used to uniformly apply suntan lotion, sunscreen, bronzer, or any other cosmetic or medical preparation (or any other suitable substance) to a user's arms, legs, feet, neck, or other body parts.

[0034] A handheld applicator assembly system, according to various embodiments, includes a set of detachable and interchangeable cosmetic brushes for applying a cosmetic to a surface area of the user' s body, such as their face. A cosmetic for a surface area such as the face may include any of a variety of different compounds, such as liquids, creams, gels, powders, and the like. These compounds may be tinted with color, suffused with decorative additives such as glitter or colored powder, and/or infused with nourishing or therapeutic compounds such as sunscreen.

[0035] Each of the cosmetic brushes may be customized in size, shape, and stiffness to facilitate the application and blending of a cosmetic across one or more specified zones on the user's body. For example, a zone near the eyes may benefit from a cosmetic brush that is relatively small in size, rounded in shape, and soft in stiffness. In particular embodiments, each of the cosmetic brushes is adapted to be selectively attached to, and detached from, the motorized rotating brush support discussed above. In particular embodiments, this may allow users to use a single base device in conjunction with multiple specialized brushes and cosmetics to apply the appropriate makeup to each individual zone of their face (or other body part) using a makeup, brush, and application technique that have each been customized and/or specifically selected for that particular zone.

[0036] In particular embodiments, the rotating brush support is a motorized handheld tool having a handle, a motor, and a head assembly that includes a coupling assembly for releasably receiving any of the cosmetic brushes. The motor may include a drive shaft connected to the head assembly for rotating the attached brush during use. The system may also be used without power, as a manual brush.

[0037] In various embodiments, the makeup application kit includes detailed instructions {e.g., in the form of electronic or printed materials, computer software, and/or one or more videos) for instructing a user how to use the kit's various components (for example, using the techniques described below).

Exemplary Handheld Applicator Assembly

[0038] As shown in Figure 1A, the handheld applicator assembly 100 includes a motorized applicator support {e.g., a motorized brush support 102) and an applicator 200 {e.g., a makeup brush). In particular embodiments, the applicator 200 is mounted adjacent {e.g., to) the end of the applicator support 102 and the motorized applicator support 102 is adapted to selectively rotate the applicator 200 at least substantially about the applicator's central axis 116.

[0039] In particular embodiments, the motorized applicator support 102 comprises a handle 104 and a head assembly 112 for receiving an applicator 200. The handle 104 has a proximal end 106 and a distal end 108. The distal end 108 is closer to the user when the applicator assembly 100 is in use. The handle 104 may include an interior chamber (e.g. a cavity). The handle 104 may be elongated in shape, as shown, extending lengthwise along a central axis 116 between the proximal end 106 and the head assembly 112. In various embodiments, the handle 104 may be any size and shape that is comfortable to grip and otherwise suitable for grasping and maneuvering the applicator assembly 100. The handheld applicator assembly 100 may be sized and shaped to fit easily into a carrying case, purse or other bag for portability. The various components of the handheld applicator assembly 100 may be optimized toward a minimum overall size and weight to further facilitate portability.

[0040] The head assembly 112 may be configured to receive the applicator 200. As shown, the applicator 200 mounted on the handheld applicator assembly 100 may be a cosmetic brush. In particular embodiments, the applicator 100 may be held and manipulated by a user in order to use the cosmetic brush to distribute a cosmetic across a selected surface area such as the face.

Applicator Cup

[0041] Referring to Figures IB and 1C, the applicator 200 (FIG. 1A) may include a variety of different types of applicator cups 118 or 118A for mounting the bristles. The applicator cup 118, 118A allows the applicator 200 to connect to the applicator assembly 100, as described further below. As shown in these figures, the applicator cup 118, 118A may comprise a substantially cylindrical (e.g., cylindrical), at least partially hollow, cup body portion lioj, 110A that includes a side wall 115, 115A, a top face 120, 120A, and a bottom face 130, 130A. In particular embodiments, the cup body portion 110, 110A may have a substantially circular (e.g., circular) cross section. The cup body portion 110, 110A may define an applicator-receiving recess 140, 140A adjacent (e g., extending through) the cup's top face 120, 120A and an attachment recess or stem adjacent (e.g., extending through) the cup's bottom face 130, 130A. In some embodiments, the applicator cup 118 or 118A may include at least one finger grip disposed adjacent the cup's upper portion. The finger grip may be, for example, a protrusion (e.g., 325 of Figure 5) that extends outwardly from the outer surface 115, 115A of the cup body portion 110, 110A. In various embodiments, the finger grip may have any width and height suitable for allowing a user to grip the applicator cup's body portion 110, 110A. In some embodiments, the finger grip may extend partially along the circumference of the cup's outer surface 115, 115A or substantially along the entire circumference of the cup' s outer surface.

Cup

[0042] Still referring to Figures IB and 1C, body portion 110, 110A of the applicator cup 200 may be substantially cylindrical (e.g., cylindrical) with a diameter between, for example, about 20 mm and about 40 mm. In particular embodiments, the body portion 110, 110A may have a diameter of about 29 4 mm. In various embodiments, the body portion 110, 110A may have a height between about 20 mm and about 40 mm. In particular embodiments, the body portion 110, 110A has a height of 31.8 mm. In the embodiments shown in Figures IB and 1C, the body portion 110, 110A defines the top 120, 120A and bottom face 130, 130A and defines a beveled edge on the outer circumference of the edge of the bottom face 130, 130A. In other embodiments, the body portion 110, 110A may define any other suitable edge (e.g., round or square) on the outer circumference of the edge of the bottom face 130, 130A.

Applicator-Receiving Recess

[0043] In the embodiments shown in Figures IB and 1C, the body portion 110, 110A defines an applicator-receiving recess 140, 140A that is substantially centered (e.g., centered) relative to the cup's top face 120 and the axis of rotation 116. In the embodiments shown in these figures, the applicator-receiving recess 140, 140A is substantially cylindrical (e.g., cylindrical) and has a diameter that is between about 15 mm and 39 mm. In particular embodiments, the applicator- receiving recess 140, 140A have a diameter of about 28.1 mm. In certain embodiments, the applicator-receiving recess 140, 140A has a diameter that is about 0.5 mm less than the body portion's 110, 110A overall diameter. In the embodiments shown in these figures, the applicator-receiving recess 140, 140A is between about 18 mm and 39 mm deep. In particular embodiments, the applicator-receiving recess 140, 140A is about 24 mm deep. In other embodiments, the applicator-receiving recess 140, 140A may be any depth suitable for housing an applicator.

[0044] In various embodiments, the body portion 110, 110A may be adapted to maintain an applicator (e.g., a plurality of bristles, a pad, etc.) at least substantially within (e.g., within) the applicator-receiving recess 140, 140A. In various embodiments, the applicator may be substantially permanently (e.g., permanently) coupled in the applicator-receiving recess 140, 140A via any suitable means (e.g., such as adhesive, glue, bond, screws, bolts, press-fit, friction fit, etc.) so that the applicator is centered about the axis of rotation 116 to prevent an unbalance of the applicator cup 118, 118A with respect to the applicator support 102 when the applicator 200 is rotating. In other embodiments, the applicator may be interchangeably coupled to the applicator-receiving recess 140, 140A via any suitable means (e.g., non-permanent adhesive, Velcro®, magnet, etc.).

[0045] The applicator may, according to various embodiments, comprise a brush, sponge, or any other suitable applicator for applying either a liquid or a powder substance (e.g., such as cosmetics, makeup, lotion, sunblock, sunscreen, moisturizer, foundation, concealer, eye shadow, blush, bronzer, cream, or any other appropriate substance). In various embodiments, an applicator may be adapted for applying substances in a plurality of forms (e.g., liquid, powder, or any other suitable form). In particular embodiments, the applicator is adapted to apply cosmetics or lotions while rotating. The applicator may, for example, be adapted to substantially maintain its shape and structure after repeated use.

[0046] Referring to Figures 1C and ID, the applicator may include a brush 170, 170A, 170B,

170C comprising bristles 172, 172A, 172B, 172C of any suitable length (e.g., between about 10 mm and about 80 mm). The bristles may be made of any suitable material (e.g., natural or synthetic material). In various embodiments, the bristles 172, 172A, 172B, 172C may be coupled to the applicator-receiving recess 140, 140A via any suitable method. In various embodiments, the bristles 172, 172A, 172B, 172C may be configured so that the bristles the furthest radially outward from the axis of rotation 116 appear to be longer than the bristles closet to the axis of rotation 116. In this configuration, the free ends of the bristles 172, 172A, 172B, 172C define a recessed surface.

Bristle Configuration

[0047] In the bristle configuration 170 shown in Figure ID, the free ends of the bristles 172 define a generally conical shaped recess 173 with a surface that slopes about 1 degree from the outer bristles to the center bristles. Moreover, in the bristle configuration 170A shown in Figure ID, the free ends of the bristles 172A define a generally conical shaped recess 173A with a surface that slopes about 12 degree from the outer bristles to the center bristles. It should be understood that in various embodiments, the bristles may slope from about 5 degrees to about 25 degrees, in other embodiments the bristles may slope from about 5 to 20 degrees and in particular embodiments the bristles may slope from about 8 to 18 degrees. [0048] Referring to Figure IE, for makeup brushes whose free ends of the bristles 172B, 172C generally define a convex surface (e.g. a domed shape surface), the pressure exerted by the central bristles (due to the inability for the central bristles to bend of flare) may be minimized or eliminated by creating a concave central portion 173B, 173C defined by the free ends of the central most bristles (e.g., those bristles at and around the axis of rotation 116) of the makeup brush thereby forming a recess about the axis of rotation 116. The bottom of the concave central portion 173B, 173C may range between about 0.5 mm to about 1mm from the highest most fee ends of the surrounding bristles. Similar to the concave bristle design, domed recess design prevents the center of the brush head from protruding further than the outer bristles while the brush head is spinning in order to decrease any discomfort to the user from the center bristles, which are held in place by the outer bristles and thus do not fan out like the outer bristles when the brush head is spinning.

Methods of Forming the Brush Head

[0049] In order to form the particular surfaces defined by the free ends of the bristles, in various embodiments, a bundle of bristles having generally the same length may be bundled together. In some embodiments, the ends of the bristles opposite the free ends may be banded together using a band formed from any suitable material such as paper, metal, polymer, rubber etc. The bundle of bristles are then inserted with the free ends first into a brush head shaping cup that has a bottom surface configured to form the shape of the surface defined by the free ends of the bristles.

[0050] For example, if the free ends are to form a surface as shown in Figure ID, the bottom surface of the cup is convex so that as the free ends of the bundle of bristles are inserted into the cup, the bottom surface of the cup causes the central bristles to move axial away from the outer bristles such that the banded ends of the bristles conform to the bottom surface of the cup (e.g., the banded ends of the bristles define a convex shaped surface. In order to ensure that all of the bristles are properly aligned, the band holding the bundle of bristles may be loosened or removed to allow all of the bristles to properly align to the bottom surface of the cup. Additionally, the cup and/or the banded end of the bristles may be tapped or jarred to cause the bristles to properly seat against the bottom surface of the cup. Once the seating process is completed, the band may be tightened, crimped, glued and/or fastened in any other suitable manner to ensure that the banded end of the bristles are tightly secured so that no bristles move when the bundle of bristles are removed from the cup. Once the banded and secured bundle of bristles is removed, the banded ends of the bristles may be cut so that the banded end of the bristles are even or left as is.

[0051] In other embodiments, bristles of varying lengths may be placed in a bristle-forming cup that has a flat receiving recess with a flat base. In still other embodiments, bristles of the same length may be banded together and secured at one end. Once the bundle of bristles has been secured, the free ends of the bristles may be cut into any suitable shape. It should be understood that the free ends of the bristles may be made to conform to any suitable shape where the central bristles are recessed relative to at least some of the surrounding bristles. That is, a first plurality of bristles surrounds a second plurality of bristles. The free ends of at least some of the second plurality of bristles (for example, a first group of the second plurality of bristles) are recessed with respect to the free ends of at least some of the first plurality of bristles (for example, a second group of the first plurality of bristles). The result is a plurality of bristles where the free ends of the bristles define a surface that is generally concave in shape where at least a portion of the walls defining the recess are linear and/or curved.

[0052] Referring to Figure IF, a generally cylindrical body portion 110 is shown having a recess

140 that is configured to receive the bundled bristles. As discussed above, once the bundle of bristles is banded it is important to center the banded bristles when inserting the banded end of the bristles into the applicator receiving recess 140 such that the center of the banded bristles aligns with the axis of rotation of the cylindrical body portion 110. In various embodiments, the applicator-receiving recess 140 may include one or more ridges 160 that run vertically from the top of the opening 162 of the applicator-receiving recess 140 to the cups' bottom surface 164.

[0053] In particular embodiments, the applicator-receiving recess 140 may include 3 or more ridges 160 as shown equally spaced about the inner circumference. The ridges 160 may radially extend inward from the inner wall 161 of the applicator-receiving recess 140 approximately 0.2 - 0.4 mm in depth in order to keep the banded bristles centered in the applicator-receiving recess 140. In particular embodiments, the depth of the ridges may gradually get larger as the ridges get closer to the cup's bottom surface 164. This makes it easier to insert the banded end of the bristle bundle into the cup. In addition, as the banded end of the bristles is inserted, the ridges 140 may be configured to cause a friction fit to exist between the band and the ridges 160. The ridges 160 may further be used to provide an even amount of space between the band and the inner wall 164 of the applicator-receiving recess 140 so that when glue is introduced, there will be a uniform amount of glue around the banded bristles between the band and the walls of the recess. Having a uniform amount of glue helps to minimize or eliminate wobble when the applicator 200 is rotated on the motorized handle 102.

Makeup Brush with Selectively Configurable Bristle Configuration

Turning now to Figures 1G - II, in various embodiments, the makeup brush may be configured to work with various replaceable brush heads that are adapted to be selectively coupled to the makeup brush. In various embodiments, such as the embodiment shown in Figures 1G - II, the brush head 500 may comprise a first body 505 (e.g., a generally cylindrical body having a firs recess) that is configured on one end to releasably couple to the motor contained in the makeup brush either directly or through one or more other mechanical connections such that rotation of the motor causes the first body 505 to rotate with respect to the makeup brush' s handle. In various embodiments, the first body 505 may be substantially cylindrical and comprise a first plurality of first, outwardly extending bristles. The first body 505 may be surrounded by a second body 510 (e.g., a generally ring shaped body) that is axially moveable with respect to the first body in a direction parallel to the axis of rotation of the first body 505. In some embodiments, the second body 510 may be formed in the shape of a ring with an inner opening that is slightly larger than the diameter of the first body 505. In various embodiments, the second body 510 may contain a second plurality of outwardly extending second bristles. In particular embodiments, the second body 510 may be movable between one of at least three positions, which are shown, respectively, in Figures 1G - II. In a first position, shown in Figure 1G, the free ends of the first plurality of first bristles of the first body 505 are substantially coplanar with the free ends of the second plurality of second bristles of the second body 510. In a second position, shown in Figure II, the ends of the first plurality of first bristles of the first body 505 are recessed from the free ends of the second plurality of second bristles of the second body 510. In the third position, shown in Figure 1H, the free ends of the second plurality of second bristles of the second body 510 are recessed from the free ends of the first plurality of first bristles of the first body 505. In this way, the width of the bristles that engage with the user's skin may be changed. Moreover, the configuration shown in Figure II also alleviates undue pressure exerted by the center bristles as discussed above. In order to secure the second body 510 in one of the first, second or third positions with respect to the first body 505, a spring loaded ball, pin or other locking mechanism may be formed in one of the first and second bodies 505, 510 and a detent (a recess, a blind bore, etc.) may be formed in the other one of the first and second bodies 505, 510 so as to axially and rotationally retain the first body 505 to the second body 510.

Attachment Recess

[0055] Returning to Figures IB and 1C, the cup's body portion 110 may define one or more attachment mechanisms (e.g., bottom surface 130 or attachment recesses 150A) that is suitable for use in attaching the applicator cup 110 to the handle 102 when the body portion 110 is attached to the handle. The handle may, for example, be a motorized handle or any other handle suitable for use in applying cosmetics. Referring briefly to Figure 5, exemplary motorized handles 400 and 450 are shown.

[0056] As may be understood from Figures IB and 1C, the attachment mechanism - bottom portion 130 or attachment recess 150A may be sized to either be received in a coupling recess or to receive a corresponding portion (e.g., a rotating portion) of a motorized handle when the applicator cup 118, 118A is attached to the motorized handle. In various embodiments, the engagement between the coupling recess 340 (Figure 5) of the motorized handle and the applicator cup 118, 118A causes the applicator cup 118 to rotate when the motorized handle' s rotating portion rotates. In particular embodiments, the applicator cup 118, 118A may define an attachment recess that is between about 2 mm deep and about 14 mm deep.

No Attachment Recess□

[0057] In particular embodiments and referring to Figure 1 B, the applicator cup 110 may define no attachment recess. In such embodiments, the applicator cup 110 may be adapted to be attached to a handle via a press-fit. Moreover, in various embodiments, the cross-section of the bottom surface may be polygonal to provide a secure connection between the bottom surface 130 and the coupling portion of the handle. Multi-Sided ecessD

[0058] The brush cup 110A shown in Figure 1C defines an attachment recess 150A that is substantially centered (e.g., centered) adjacent the cup's axis of rotation 116, and that has a profile that is substantially polygonal (e.g., square, hexagonal, octagonal, etc). In this embodiment, the profile of the attachment recess is that of a shape with any suitable number of sides (e.g., triangular, square, pentagonal, hexagonal, heptagonal, etc.). The attachment recess 150A is configured to receive a rotatable coupling mechanism that allows the brush cup 110A to rotate with respect to the motorized handle 102.

Alternative Attachment Recesses□

[0059] It should be understood that the brush cup may be configured to attach to the motorized handle using any suitable attachment mechanism such as a cross shaped recess, a substantially S- shaped (e.g., S-shaped) recess, a figure eight recess, a multi-hole recess, etc. In addition to recesses, the attachment mechanism may also include an attachment shaft rather than an attachment recess. The attachment shaft may have a profile that is substantially polygonal (e.g., polygonal) and that extends about 7 mm from the cup's bottom surface. In other embodiments, the attachment shaft may extend between about 3 mm and about 15 mm from the cup's bottom surface. In various embodiments, the attachment shaft may have any other suitable profile. For example, the attachment shaft may have a profile that is similar to any of the profiles of the attachment recesses described above (e.g., figure eight, multi-sided, cross, or serpentine).

Motor, Power Source, Drive Shaft

[0060] Referring specifically to Figures 1A and 5, the handheld applicator assembly 100, 400,

450 may include a motor 113and a power source 114, which may be located within a chamber inside the handle 104. The motor 113 may comprise any of a variety of different motor assemblies such as a typical mechanical or electromechanical motor, a cam assembly, a magnetic assembly, a sonic or ultrasonic mechanism, a vibrating motor, or any of a variety of motor assemblies known to those skilled in the art. The power source may comprise one or more cells such a cosmetic brush single-use or rechargeable batteries or, optionally, may include a cord for coupling to an electrical outlet. In one embodiment, at least a portion of the power source is mounted within the handle 104 while a recharging source is located outside the handle. The motor 113 may be activated by a switch 111 (Figure 5) mounted on the handle 104.

[0061] The motor 113 may include a drive shaft 109 extending lengthwise toward the distal end

108 of the handle 104, where the shaft connects to the head assembly 112 (Figure 1). The motor 113 may extend lengthwise along an axis that is substantially parallel to the central axis 116 of the handle 104. The motor 113 and drive shaft may be configured to impart movement to the applicator 200. In some embodiments, the movement may be vertical with respect to the handle 104 or horizontal with respect to the handle 104. In other embodiments, the movement may be rotational. The rotation may be substantially coaxial relative to the drive shaft. Alternatively, the rotation may be eccentric relative to the drive shaft, and the angle of the applicator 200 relative to the drive shaft and/or handle 104 may be selectively adjustable between, for example, an angle of about 0 and an angle of about 90 degrees to give the user the ability to personalize their brush for ease of use. The movement imparted to the applicator 200 may also include some amount of vibration, oscillation, translation in any direction, and combinations thereof. Any variety and combinations of movements may be employed in order to evenly and precisely distribute a cosmetic over a surface area of the body in a desired manner. In use, the motions of the user's hand may also impart movement to the applicator 200 in various directions. Also, the handheld applicator assembly 100 in some embodiments may be operated without use of the motor 113 or the power source, as a manual brush.

[0062] The motor 113, power source 114, switch 111, and drive shaft 109, in some embodiments, may be configured to drive the applicator 200 primarily in rotation about the applicator's central axis 116, or about any other suitable axis. The motor 113 may be configured to rotate the applicator 200 at a single constant speed, at a variety of intermediate speeds, or at variable speeds. For example, the motor 113 may be configured to rotate the applicator 200 at a relatively slower speed when the applicator 100 is being used on a relatively delicate or fragile surface. A higher intermediate speed may be used when the applicator 100 is being used on a relatively robust or sturdy surface. In this aspect, the switch 111 controlling the motor 113 may include a variety of intermediate speed settings or, in some embodiments, may include a slide or other element configured to operate the motor 113 at variable speeds. The motor 113 may also be configured to heat or cool the applicator in order to apply various types of cosmetics [0063] In some embodiments, the motor 113may vary the rotating speed of the applicator 200 based on a force exerted on the handheld applicator assembly 100 by the applicator 200 when the applicator presses against a surface. In this aspect, the more the user presses the applicator 200 against a particular surface, the more the motor 113 will vary the rotating speed of the applicator 200. For example, a particular user might use a relatively vigorous force to press the applicator 200 toward and into relatively minute features of the face, such as pores, furrows, creases, wrinkles, and the like. In some embodiments, the motor 113 may vary the rotating speed of the applicator 200 based on the force exerted on a switch or other component located on the handheld applicator assembly 100. In this aspect, as the user pushes against or slides the switch or other component, the motor 113 will vary the rotating speed of the applicator 200.

[0064] In various embodiments, the handheld applicator assembly 100 may include a computerized driver assembly that is programmed or otherwise configured to drive the applicator 200 through a series of predetermined rotational routines. In this aspect, the motor 113 may be automatically controlled by a computerized driver assembly in order to provide guidance to the user.

Detachable Applicators, Coupling Assembly

[0065] Referring specifically to Figures 1 and 2, as described above, the handheld applicator assembly 100 in some embodiments includes a head assembly 112 for receiving an applicator 200. The applicator 200 may be permanently or releasably attached to a coupling assembly 132. In some embodiments, the coupling assembly 132 may be configured to releasably receive an applicator 200, such that a user can manually attach and remove any of a variety of detachable applicators interchangeably such as applicators 220. The applicator 200 in some embodiments may include any of a variety of tools suitable for evenly and precisely distributing a cosmetic over a surface area of the body with a desired degree of control. For example, the applicator 200 may be a soft disk, a sponge, a semi-porous pad, a brush, a roller, or the like, and any combinations thereof. The applicator 200 may be a single unit or it may be comprised of multiple components.

[0066] The coupling assembly 132 in some embodiments may be a bayonet-type assembly, for example, which includes a male element such as a cylinder with one or more radial pins and a female element such as a hollow cylinder with matching L-shaped slots and an internal spring that is biased to push against the male element and thereby keep the pins engaged with the slots. Bayonet mounts are sometimes used for camera lenses and automotive lamps. A bayonet mount may facilitate precise alignment, for example, between the head assembly 112 and the applicator 200. The coupling assembly 132 may be any kind of connector or fastening mechanism, such as a screw-threaded mount, a bayonet mount, a keyhole mount, a channel mount, a friction fit between mating parts, or the like. Any of a variety of coupling assemblies known to those skilled in the art may be used. In some embodiments, the coupling assembly 132 may be configured to cushion or otherwise absorb the vibration and energy from the applicator 200 during use.

Exemplary Applicator System

[0067] Still referring to Figure 2, an applicator system 10, as illustrated in Figure 2, may include a motorized brush support 102 and a set of cosmetic brushes 220 for applying a cosmetic to a surface area such as the face. The motorized brush support 100, as shown, includes a base portion (in this case, a handle 102), a head assembly 112, and a coupling assembly 132. The coupling assembly 132 may extend away from the head assembly 112, as shown, or it may be integrated within the head assembly 112. In some embodiments, each of the cosmetic brushes 220 may include a connector 222A - 222G for attaching to or otherwise engaging with the coupling assembly 132. The connector 222A - 222G may extend below the base of a brush, as shown, or it may be integrated within the base of the brush. The connector 222A - 222G may include any type of connector or fastening mechanism that fits or otherwise engages with the coupling assembly 132, as described above in reference to Figures IB and 1C. Any of a variety of combinations of connectors 222A - 222G and coupling assemblies 132 known to those skilled in the art may be used.

[0068] Any of a variety of cosmetic brushes (such as one or more specialty makeup brushes) may be collected in a set 220 for use with any particular application. In an exemplary embodiment, the set of cosmetic brushes 220, as illustrated, may include one or more of the following brush types: a Liquidator Brush 220A, a Powder Foundation Brush 220B, an Under- Eye Concealer Brush 220C, an Upper Eyelid Shadow Brush 220D, a Blush Blaster Brush 220E, a Disco Shine Brush 220F, and a Bronzer Brush 220G.

[0069] The Liquidator Brush 220A may be used to apply and distribute a liquid or cream foundation. The Powder Foundation Brush 220B may be used to apply and distribute a powder foundation or base. The Under-Eye Concealer Brush 220C may be used to apply and distribute a concealer compound under the eyes and other areas, as desired. The Upper Eyelid Shadow Brush 220D may be used to apply and distribute a shadow compound to the upper eyelids. The Blush Blaster Brush 220E may be used to apply and distribute a blush compound to the "S zone" or cheeks and other areas, as desired. The Disco Shine Brush 220F may be used to apply and distribute a decorative compound such as a colored powder or glitter to any area. The Bronzer Brush 220G may be used to apply and distribute a bronzing compound to any area. In use, any of the set of brushes 220 may be used to apply, distribute and blend any of these compounds to any area of the face and/or body.

[0070] The cosmetic brushes in a set 220 may include any number of different brush types. A brush may include a base, a collection of bristles, and a ferrule or other component for holding the bristles to the base. The bristles may be made of natural animal hair, synthetic fibers, or a blend. The base of the brush, in some embodiments, may be made of different materials, in various colors. The brush may include one or more words or indicia correlated to a particular manufacturer, product name, trademark, business or social cause. The set of brushes 220 may be color coded or otherwise grouped by a visible feature that indicates to the user each brush' s intended use and/or its association with a particular set of brushes.

[0071] Each cosmetic brush may be characterized by its particular features; for example, its overall size and shape, the shape of its base, the ferrule type, the bristle composition (natural, synthetic or blend, for example), the bristle length, the bristle color, the shape of each bristle end (rounded or blunt, smooth or rough, for example), the overall shape made by all the bristles together (fan-shaped, cone-shaped, flat, rounded, pointed, and the like), the bristle spacing and density (measured, for example, in bristles per square inch) and the bristle stiffness (from rigid bristles like a toothbrush, to bristles as limp as cotton thread). For example, in the context of face makeup, a first cosmetic brush (such as The Liquidator Brush 220A illustrated in Figure 2) may be relatively large in size, flat across the end of the bristles, and relatively rigid in stiffness. A second cosmetic brush (such as The Upper Eyelid Shadow Brush 220D) may be relatively small in size, rounded in shape across the end, and softer in stiffness.

Makeup Brush with Concave Application Surface

[0072] In various embodiments described above, the makeup brush head may include a bristle arrangement in which the free ends of the bristles are not substantially coplanar, but, rather are in a substantially concave (or other) arrangement in which the distal ends of the centrally-situated bristles are recessed relative to the free ends of the bristles that are disposed radially outward from the axis of rotation. This may, for example, allow for a makeup brush head that applies substantially even pressure to a body surface when the brush head is being used to apply makeup to the body surface as the brush head is being rotated by the makeup brush's motor. This may also allow, for example, a user to deposit makeup directly into the concave application surface in order to apply a greater amount of makeup to the user's face and/or body. For example, the concave application surface may be beneficial in applying body paint to a person' s entire body because it allows the user to cover a greater area of the person' s body without reloading the makeup brush with makeup.

[0073] In particular embodiments, the recess formed by the respective ends of brush head' s bristles may be, for example, substantially in the shape of a cone, a dome, or any other suitable shape.

Systematic Correlation of Compound, Zone, and Brush

[0074] Referring again to Figures 2, 3 and 4, the applicator system 10, in some embodiments, may include a handheld applicator assembly 100, a plurality of different cosmetics, instructions that include a depiction of a surface area 300 of the body divided into a number of different zones (as shown in Figure 3), and a set of cosmetic brushes 220. The cosmetic brushes may be customized in size, shape, stiffness, and/or other parameters to facilitate the application and blending of one or more of the different cosmetics into one or more of the zones of the surface area. In this respect, for example, the brush types may be correlated to both the cosmetic compound and the corresponding zone of the human face. The applicator system 10 in some embodiments may include a makeup application system and method which provides to the user a systematic correlation between each particular cosmetic within the applicator system and: (1) each zone within a specified surface area 300 to receive the particular cosmetic; and (2) a particular cosmetic brush 220 (e.g., selected from the provided set of cosmetic brushes) that is to be used in applying the cosmetic to each particular zone within the specified surface area 300

[0075] The plurality of different cosmetics may include any number and variety of different compounds. For example, as described above in the context of face makeup, a first compound may be a liquid or cream foundation; a second compound may be a powder foundation or base; a third compound may be an under-eye concealer; a fourth compound may be an eyelid shadow; a fifth compound may be a blush; a sixth compound may be a decorative compound such as a colored powder or glitter; a seventh compound may be a bronzer; and so forth.

[0076] A surface area 300 such as the face, as illustrated in Figure 3, may be characterized as including one or more zones, such as: (1) a "T Zone" 320 that includes the forehead and nose; (2) an upper eyelid zone 310D; (3) an under-eye zone 310C; (4) an "S Zone" 310E that includes the cheeks; (5) an "O Zone" 330 around the mouth; and (6) other peripheral zones such as the neck, the ears, the hairline, and the like.

[0077] The cosmetic brushes in a set 220 may include any number of different brush types. As described above, each cosmetic brush may be characterized by its particular features such as overall size and shape, bristle type, and stiffness. Each brush in a set of cosmetic brushes 220 may be customized in size, shape, stiffness, material, and other parameters to facilitate the application and blending of a selected cosmetic compound to a particular zone to receive the makeup. In some embodiments, for example, a first cosmetic brush is customized in size, shape, and stiffness to facilitate the application and blending of a first compound across a first zone on a user's skin. A second brush is customized in size, shape, and stiffness to facilitate the application and blending of a second compound across a second zone on a user' s skin. A third brush is customized for applying and blending a third compound across a third zone on a user' s skin; and so forth.

[0078] Providing an applicator system 10 that includes a systematic correlation between each compound, each zone, and each brush may provide valuable assistance to users of makeup, especially those who are not trained makeup artists. This systematic correlation may be provided to the user, for example, in a set of printed or electronic instructions. By way of example only, the applicator system 10 may provide the following correlations between and among an exemplary set of compounds, zones and brushes, as summarized in the table below and in Figure 4.

Other combinations of compounds, zones, and brushes will come to mind to those of skill in the relevant field who have the benefit of the teachings presented in this description and the associated drawings.

Exemplary Method of Applying a Plurality of Cosmetics

[0079] The systems for applying cosmetics described above may be utilized in a method of applying a plurality of cosmetics to a user's skin. In some embodiments, the provider of one or more components of a system for applying cosmetics may execute the steps in the method. In some embodiments, the user of such a system may execute the steps in the method.

[0080] A method in some embodiments may include the step of providing a motorized brush support 102, such as the one illustrated in Figure 2 and described above. The motorized brush support 102 may include a handle 104, a motor 113, a head assembly 112, and a coupling assembly 132 configured for releasably receiving a first cosmetic brush. Another step may include identifying or otherwise designating at least a first zone within a surface area on the body, such as the face, to receive a cosmetic. [0081] Another step may include designing and/or collecting or otherwise providing a set of cosmetic brushes 220, such as the set illustrated in Figure 2. This step may include providing a first cosmetic brush, which may be customized in size, shape, stiffness, and other parameters to facilitate distribution of the first compound across the first zone of the surface area to receive makeup. The provider of one or more components of a system for applying cosmetics, in some embodiments, may execute one or more additional steps that are designed to provide guidance and direction to a user. For example, another step may include directing a user to select the first cosmetic brush and mount it to the coupling assembly 132 on the handheld tool 100. Another step may include directing a user to deposit a first particular cosmetic onto the first zone. This step may be accomplished, for example, by using a cotton swab, a foam wedge, a fmger, or the like, to collect the first compound from its container and deposit it onto the first zone in a desired amount. The user may also use the first cosmetic brush to accomplish this step.

[0082] Another step may include directing a user to distribute the first compound across the first zone by manipulating the handheld tool 100 against the first zone of the surface. This step may be accomplished, for example, by activating the switch 111 (Figure 5) on the handheld tool 100 to start the motor 113, which begins rotating the first cosmetic brush, and by pressing the brush against the areas on the first zone where the first compound has been deposited in discrete amounts (by hand or wedge, for example). In a spreading motion, the user may distribute the first compound as desired; preferably, blending the discrete deposits of first compound across the first zone in order to create an evenly blended layer. The tool 100 and first cosmetic brush may be manipulated in a spreading motion toward and into relatively minute features of the face, such as pores, furrows, creases, wrinkles, and the like. Also, the tool 100 and first cosmetic brush may be manipulated in a spreading motion toward and into the natural features of the face such as those in and around the nose, including the bridge, dorsum, lateral surfaces, alae nasi, alar furrows, nasal septum, and the philtrum. In this aspect, the rotating first cosmetic brush in some embodiments may be manipulated in order to produce: (1) an apparently even distribution of the first compound across the first zone; and, (2) an apparently even and gradually decreasing layer of the first compound around the perimeter of the first zone (for example, along the edge of the first zone, such as along the neck, at the hairline, near the lips, near the eyes, and the like). [0083] In a further aspect, the method may include the steps of identifying a second zone within a surface area on the body, providing a second cosmetic brush customized in size, shape, and stiffness to facilitate distribution of a second compound across the second zone, and directing a user to deposit and then distribute the second compound across the second zone. Similarly, the method may include identifying a third zone, providing a third brush, and directing a user to distribute a third compound; and so forth, for any number of zones.

[0084] The method of applying one or more cosmetics, as described, may result in a more efficient application of the various compounds to the area. In other words, the method may accomplish a desired result while using less makeup than other methods, such as application with manual tools and other techniques. In this aspect, however, the even distribution that may be accomplished by using the method may, in practice, result in the application of more makeup and better coverage on certain areas of the body or face.

[0085] Also, the method of applying one or more cosmetics, as described, may be more efficient in terms of the amount of manual effort required. In this aspect, for some users, the rotating applicator may accomplish the desired result with less hand and wrist movement than generally required for manual application techniques. The method may be particularly helpful for those with physical limitations due to age, disability, or mobility limitations.

[0086] In some embodiments, the user of a system for applying one or more cosmetics may execute the steps in a method, as described above, including the steps of identifying zones, selecting and mounting brushes, depositing compounds, and manipulating a tool to distribute the compounds. The steps described herein, of course, need not be performed in any particular order and may be repeated, removed and re-applied, or otherwise accomplished in any manner to achieve a desired result.

Exemplary Method with Correlation of Compound, Zone, and Brush

[0087] In an exemplary embodiment, a method of applying one or more cosmetics may include the step of selecting a surface area on the body to receive cosmetics; for example, the face. Another step may include identifying a first zone within the area, such as the cheeks or "S Zone" 310E and the forehead or "T Zone" 320, as shown in Figure 3. Another step may include selecting a first compound, such as a liquid or cream foundation, for application to the first zone. In some embodiments, for the provider of one or more components of a system for applying cosmetics, another step may include designing and/or collecting or otherwise providing a first cosmetic brush, such as the Liquidator Brush 220A, shown in Figure 2, for use in applying the first compound across the first zone. The Liquidator Brush 220A, in some embodiments, may be relatively large in size, flat across the end of the bristles, and relatively rigid in stiffness. Another step may include selecting and mounting the Liquidator Brush 220A to the coupling assembly 132 of the handheld applicator assembly 100. Another step may include depositing the liquid or cream foundation, using the fingers or a foam wedge for example, in discrete amounts across the cheeks and forehead (i.e., the first zone). Another step may include manipulating the handheld applicator assembly 100 against the cheeks and forehead by pressing the Liquidator Brush 220A against the areas where the liquid or cream foundation has been deposited. In a spreading motion, the user may distribute the liquid or cream foundation as desired; preferably, blending the liquid or cream foundation across the cheeks and forehead in order to create an evenly blended layer. The handheld applicator assembly 100 and the Liquidator Brush 220A may be manipulated in a spreading motion toward and into relatively minute features of the face and toward the edges of the cheeks and forehead. In this aspect, the method may include the step of distributing the liquid or cream foundation in a gradually decreasing layer around the perimeter of the cheeks and forehead; for example, along the neck line, at the ears, at the hairline, near the lips, near the eyes, and the like, without producing a line or an otherwise abrupt change in coverage between any two zones. This step of distributing the liquid or cream foundation across the cheeks and forehead using the Liquidator Brush 220A can be continued until a desired appearance is achieved.

In a further aspect of this exemplary embodiment, another step of the method may include identifying a second zone within the face which, in this example, may also include the cheeks or "S Zone" 310E and the forehead or "T Zone" 320, shown in Figure 3. Another step may include selecting a second compound, such as a powder foundation, for application to the second zone. In some embodiments, for the provider of one or more components of a system for applying cosmetics, another step may include designing and/or collecting or otherwise providing a second cosmetic brush, such as the Powder Foundation Brush 220B, shown in Figure 2, for use in applying the powder foundation across the second zone. The Powder Foundation Brush 220B, in some embodiments, may be relatively large in size, slightly curved and fan-shaped across the end of the bristles, and somewhat less rigid in stiffness than the Liquidator Brush 220A Another step may include selecting and mounting the Powder Foundation Brush 220B to the coupling assembly 132 of the handheld applicator assembly 100. Another step may include depositing the powder foundation, using the fingers or a foam wedge for example, in discrete amounts across the cheeks and forehead {i.e., the second zone).

[0089] Another step may include manipulating the handheld applicator assembly' s applicator

200 against the cheeks and forehead by pressing the Powder Foundation Brush 220B against the areas where the powder foundation has been deposited. In a spreading motion, the user may distribute the powder foundation as desired; preferably, blending the powder foundation across the cheeks and forehead in order to create an evenly blended layer. The handheld applicator assembly 100 and the Powder Foundation Brush 220B may be manipulated in a spreading motion toward and into relatively minute features of the face and toward the edges of the cheeks and forehead. In this aspect, the method may include the step of distributing the powder foundation in a gradually decreasing layer around the perimeter of the cheeks and forehead; for example, along the neck line, at the hairline, near the lips, near the eyes, and the like, without producing a line or an otherwise abrupt change in coverage between any two zones. This step of distributing the powder foundation across the cheeks and forehead using the Powder Foundation Brush 220B can be continued until a desired appearance is achieved.

Zones Near the Eyes

[0090] In a further aspect of this exemplary embodiment, another step of the method may include identifying a third zone within the face which, in this example, may include the under- eye zone 310C, shown in Figures 3 and 4. Another step may include selecting a third compound, such as an under-eye concealer compound, for application to the under-eye zone. In some embodiments, for the provider of one or more components of a system for applying cosmetics, another step may include designing and/or collecting or otherwise providing a third cosmetic brush, such as the Under-Eye Concealer Brush 220C, shown in Figure 2, for use in applying the concealer across the under-eye zone 310C. The Under-Eye Concealer Brush 220C, in some embodiments, may be relatively small in size, gently curved across the end of the bristles, and relatively soft in stiffness.

[0091] Another step may include selecting and mounting the Under-Eye Concealer Brush 220C to the coupling assembly 132 of the handheld applicator assembly 100. Another step may include depositing the under-eye concealer, using the fingers or a foam wedge for example, in discrete amounts across the under-eye zone 310C {i.e., the third zone). Another step may include manipulating the handheld applicator assembly 100 against the under-eye zone 310C by pressing the Under-Eye Concealer Brush 220C against the areas where the concealer has been deposited. In a spreading motion, the user may distribute the concealer as desired; preferably, blending the concealer across the under-eye zone 310C in order to create an evenly blended layer. The handheld applicator assembly 100 and the Under-Eye Concealer Brush 220C may be manipulated in a spreading motion toward and into relatively minute features of the face and toward the edges of the under-eye zone 310C. In this aspect, the method may include the step of distributing the concealer in a gradually decreasing layer around the perimeter of the under-eye zone 310C; for example, near the lower eyelash and along the upper cheekbone, without producing a line or an otherwise abrupt change in coverage between any two zones. This step of distributing the concealer across the under-eye zone 310C using the Under-Eye Concealer Brush 220C can be continued until a desired appearance is achieved.

[0092] In a further aspect of this exemplary embodiment, another step of the method may include identifying a fourth zone within the face which, in this example, may include the upper eyelid zone 310D of Figures 3 and 4. Another step may include selecting a fourth compound, such as an eye shadow compound, for application to the upper eyelid zone. In some embodiments, for the provider of one or more components of a system for applying cosmetics, another step may include designing and/or collecting or otherwise providing a fourth cosmetic brush, such as the Upper Eyelid Shadow Brush 220D, shown in Figure 2, for use in applying the eye shadow across the upper eyelid zone 310D. The Upper Eyelid Shadow Brush 220D, in some embodiments, may be relatively small in size, highly rounded across the end of the bristles, and very soft in terms of stiffness. [0093] Another step may include selecting and mounting the Upper Eyelid Shadow Brush 220D to the coupling assembly 132 of the handheld applicator assembly 100. Another step may include depositing the eye shadow compound, using the fingers or a foam wedge, for example, in discrete amounts across the upper eyelid zone 310D {i.e., the fourth zone). Another step may include manipulating the handheld applicator assembly 100 against the upper eyelid zone 310D by pressing the Upper Eyelid Shadow Brush 220D against the areas where the eye shadow has been deposited In a spreading motion, the user may distribute the eye shadow as desired; preferably, blending the eye shadow across the upper eyelid zone 310D in order to create an evenly blended layer. The handheld applicator assembly 100 and the Upper Eyelid Shadow Brush 220D may be manipulated in a spreading motion toward and into relatively minute features of the face and toward the edges of the upper eyelid zone 310D. In this aspect, the method may include the step of distributing the eye shadow in a gradually decreasing layer around the perimeter of the upper eyelid zone 310D; for example, near the upper eyelash, along the brow line, and near the temples without producing a line or an otherwise abrupt change in coverage between any two zones. This step of distributing the eye shadow across the upper eyelid zone 310D using the Upper Eyelid Shadow Brush 220D can be continued until a desired appearance is achieved.

Blush. Decorative Compounds, and Bronzer

[0094] In a further aspect of this exemplary embodiment, another step of the method may include identifying a fifth zone within the face which, in this example, may include the cheeks or the "S Zone" 310E from Figure 3. Another step may include selecting a fifth compound, such as a blush, for application to the cheeks. In some embodiments, for the provider of one or more components of a system for applying cosmetics, another step may include designing and/or collecting or otherwise providing a fifth cosmetic brush, such as the Blush Blaster Brush 220E shown in Figure 2, for use in applying the blush across the cheeks or "S Zone" 310E. The Blush Blaster Brush 220E, in some embodiments, may be relatively large in size, rounded across the end of the bristles, and medium-soft in terms of stiffness.

[0095] Another step may include selecting and mounting the Blush Blaster Brush 220E to the coupling assembly 132 of the handheld applicator assembly 100. Another step may include depositing the blush compound, using the fingers or a foam wedge for example, in discrete amounts across the cheeks {i.e., the fifth zone). Another step may include manipulating the handheld applicator assembly 100 against the cheeks by pressing the Blush Blaster Brush 220E against the areas where the eye shadow has been deposited. In a spreading motion, the user may distribute the blush as desired; preferably, blending the blush across the cheeks in order to create an evenly blended layer and without producing a line or an otherwise abrupt change in coverage or color between any two zones. This step of distributing the blush across the cheeks using the Blush Blaster Brush 220E can be continued until a desired appearance is achieved.

[0096] In a further aspect of this exemplary embodiment, another step of the method may include identifying a sixth zone within the face which, in this example, may include the temples. Another step may include selecting a sixth compound, such as a decorative compound including colored powder or glitter, for application to the temples. In some embodiments, for the provider of one or more components of a system for applying cosmetics, another step may include designing and/or collecting or otherwise providing a sixth cosmetic brush, such as the Disco Shine Brush 220F, shown in Figure 2, for use in applying the decorative compound across the temples. The Disco Shine Brush 220F, in some embodiments, may be relatively medium in size, highly rounded across the end of the bristles, and medium-soft in terms of stiffness.

[0097] Another step may include selecting and mounting the Disco Shine Brush 220F to the coupling assembly 132 of the handheld applicator assembly 100. Another step may include depositing the decorative compound, using the fingers or a foam wedge for example, in discrete amounts across the temples {i.e. , the sixth zone). Another step may include manipulating the handheld applicator assembly 100 against the temples by pressing the Disco Shine Brush 220F against the areas where the decorative compound has been deposited. In a spreading motion, the user may distribute the decorative compound as desired; preferably, blending the decorative compound across the temples in order to create an evenly blended layer and without producing a line or an otherwise abrupt change in coverage or color between any two zones. This step of distributing the decorative compound across the temples using the Disco Shine Brush 220F can be continued until a desired appearance is achieved. [0098] In a further aspect of this exemplary embodiment, another step of the method may include identifying a seventh zone within the face which, in this example, may include the cheeks or the "S Zone" 310E, as shown in Figure 3. Another step may include selecting a seventh compound, such as a bronzer, for application to the cheeks. In some embodiments, for the provider of one or more components of a system for applying cosmetics, another step may include designing and/or collecting or otherwise providing a seventh cosmetic brush, such as the Bronzer Brush 220G shown in Figure 2, for use in applying the bronzer across the cheeks or "S Zone" 310E. The Bronzer Brush 220G, in some embodiments, may be relatively large in size, highly rounded across the end of the bristles, and relatively soft in terms of stiffness.

[0099] Another step may include selecting and mounting the Bronzer Brush 220G to the coupling assembly 132 of the handheld applicator assembly 100. Another step may include depositing the bronzer compound, using the fingers or a foam wedge for example, in discrete amounts across the cheeks {i.e., the seventh zone). Another step may include manipulating the handheld applicator assembly 100 against the cheeks by pressing the Bronzer Brush 220G against the areas where the bronzer has been deposited. In a spreading motion, the user may distribute the bronzer as desired; preferably, blending the bronzer across the cheeks in order to create an evenly blended layer and without producing a line or an otherwise abrupt change in coverage or color between any two zones. This step of distributing the bronzer across the cheeks using the Bronzer Brush 220G can be continued until a desired appearance is achieved.

[00100] In some embodiments, the user of a system for applying one or more cosmetics may execute the steps in a method, as described above, including the steps of identifying zones, selecting and mounting brushes, depositing compounds, and manipulating a tool to distribute the compounds. Any number of different users may be involved in the performance of any of the steps. The steps described herein, of course, need not be performed in any particular order and may be repeated, removed and re-applied, or otherwise accomplished in any manner to achieve a desired result.

[00101] As described above, the methods of applying one or more cosmetics may include correlating the compound, zone, and brush in order to produce a desired result. Providing a method that includes the systematic correlation between each compound, each zone, and each brush may provide valuable assistance to users of makeup, especially those who are not trained makeup artists.

Exemplary Technical Platforms

[00102] As will be appreciated by one skilled in the relevant field, various aspects of the present system may be, for example, embodied as a computer system, a method, or a computer program product. Accordingly, various embodiments may be entirely hardware or a combination of hardware and software. Furthermore, particular embodiments may take the form of a computer program product stored on a computer-readable storage medium having computer-readable instructions (e.g., software) embodied in the storage medium. Various embodiments may also take the form of Internet-implemented computer software. Any suitable computer-readable storage medium may be utilized including, for example, hard disks, compact disks, DVDs, optical storage devices, and/or magnetic storage devices.

[00103] Various embodiments are described herein with reference to block diagram and flowchart illustrations of methods, apparatuses, (e.g., systems), and computer program products. It should be understood that each block of the block diagrams and flowchart illustrations, and combinations of blocks in the block diagrams and flowchart illustrations, respectively, can be implemented by a computer executing computer program instructions. These computer program instructions may be loaded onto a general purpose computer, a special purpose computer, or other programmable data processing apparatus that can direct a computer or other programmable data processing apparatus to function in a particular manner such that the instructions stored in the computer-readable memory produce an article of manufacture that is configured for implementing the functions specified in the flowchart block or blocks.

[00104] The computer instructions may execute entirely on the user's computer, partly on the user's computer, as a stand-alone software package, partly on a user' s computer and partly on a remote computer, or entirely on the remote computer or server. In the latter scenario, the remote computer may be connected to the user' s computer through any type of network, including but not limited to: (1) a local area network (LAN); (2) a wide area network (WAN); (3) a cellular network; or (4) the connection may be made to an external computer (for example, through the Internet using an Internet Service Provider). [00105] These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner such that the instructions stored in the computer-readable memory produce an article of manufacture that is configured for implementing the function specified in the flowchart block or blocks. The computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer- implemented process (e.g., method) such that the instructions that execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart block or blocks.

Example System Architecture

[00106] Figure 6 is a block diagram of a Computerized Rotating Makeup Brush System 500 according to particular embodiments. As may be understood from this figure, the Computerized Rotating Makeup Brush System 500 includes One or More Networks 515, a Brush operations server 520 that includes a Brush operations Module 714, a Brush operations Database 540, One or More Remote Computing Devices 554 (e.g., such as a smart phone, a tablet computer, a wearable computing device, a laptop computer, a desktop computer, a Bluetooth device, etc.), and One or More Computerized Rotating Makeup Brushes 556. In particular embodiments, the One or More Computer Networks 515 facilitate communication between the Brush operations server 520, the Brush operations Database 540, the One or More Remote Computing Devices 554, and the One or Computerized Rotating Makeup Brushes 556.

[00107] The one or more networks 515 may include any of a variety of types of wired or wireless computer networks such as the Internet, a private intranet, a mesh network, a public switch telephone network (PSTN), or any other type of network (e.g., a network that uses Bluetooth or near field communications to facilitate communication between computing devices). The communication link between the One or More Remote Computing Devices 554 and the Brush operations server 520 may be, for example, implemented via a Local Area Network (LAN) or via the Internet.

[00108] Figure 7 illustrates a diagrammatic representation of the architecture for the Brush operations server 520 that may be used within the Computerized Rotating Makeup Brush System 500. It should be understood that the computer architecture shown in Figure 7 may also represent the computer architecture for any one of the One or More Remote Computing Devices 554, and One or More Computerized Rotating Makeup Brushes 556 shown in Figure 6. In particular embodiments, the Brush operations server 520 may be suitable for use as a computer within the context of the Computerized Rotating Makeup Brush System 500 that is configured for receiving specific brush information and automatically adjusting the motor/brush' s rotational speed, torque, and/or other characteristics.

[00109] In particular embodiments, the Brush Operations Server 520 may be connected (e.g., networked) to other computing devices in a LAN, an intranet, an extranet, and/or the Internet as shown in Figure 6. As noted above, the Brush Operations Server 520 may operate in the capacity of a server or a client computing device in a client-server network environment, or as a peer computing device in a peer-to-peer (or distributed) network environment. The Brush operations server 520 may be a desktop personal computing device (PC), a tablet PC, a set-top box (STB), a Personal Digital Assistant (PDA), a cellular telephone, a web appliance, a network router, a switch or bridge, or any other computing device capable of executing a set of instructions (sequential or otherwise) that specify actions to be taken by that computing device. Further, while only a single computing device is illustrated, the term "computing device" shall also be interpreted to include any collection of computing devices that individually or jointly execute a set (or multiple sets) of instructions to perform any one or more of the methodologies discussed herein.

[00110] An exemplary Brush operations server 520 includes a processing device 602, a main memory 604 (e.g., read-only memory (ROM), flash memory, dynamic random access memory (DRAM) such as synchronous DRAM (SDRAM) or Rambus DRAM (RDRAM), etc.), a static memory 606 (e.g., flash memory, static random access memory (SRAM), etc.), and a data storage device 618, which communicate with each other via a bus 632.

[00111] The processing device 602 represents one or more general-purpose or specific processing devices such as a microprocessor, a central processing unit (CPU), or the like. More particularly, the processing device 602 may be a complex instruction set computing (CISC) microprocessor, reduced instruction set computing (RISC) microprocessor, very long instruction word (VLIW) microprocessor, or processor implementing other instruction sets, or processors implementing a combination of instruction sets. The processing device 602 may also be one or more special- purpose processing devices such as an application specific integrated circuit (ASIC), a field programmable gate array (FPGA), a digital signal processor (DSP), network processor, or the like. The processing device 602 may be configured to execute processing logic 626 for performing various operations and steps discussed herein.

[00112] The Brush Operations Server 520 may further include a network interface device 608.

The Brush Operations Server 520 may also include a video display unit 610 (e.g., a liquid crystal display (LCD) or a cathode ray tube (CRT)), an alpha-numeric input device 612 (e.g., a keyboard), a cursor control device 614 (e.g., a mouse), and a signal generation device 616 (e.g., a speaker).

[00113] The data storage device 618 may include a non-transitory computing device-accessible storage medium 630 (also known as a non-transitory computing device-readable storage medium or a non-transitory computing device-readable medium) on which is stored one or more sets of instructions (e.g., the Brush operations Module 714) embodying any one or more of the methodologies or functions described herein. The one or more sets of instructions may also reside, completely or at least partially, within the main memory 604 and/or within the processing device 602 during execution thereof by the Brush Operations Server 520 - the main memory 604 and the processing device 602 also constituting computing device-accessible storage media. The one or more sets of instructions may further be transmitted or received over a network 515 via a network interface device 608.

[00114] While the computing device-accessible storage medium 630 is shown in an exemplary embodiment to be a single medium, the term "computing device-accessible storage medium" should be understood to include a single medium or multiple media (e.g., a centralized or distributed database, and/or associated caches and servers) that store the one or more sets of instructions. The term "computing device-accessible storage medium" should also be understood to include any medium that is capable of storing, encoding, or carrying a set of instructions for execution by the computing device and that causes the computing device to include any one or more of the methodologies of the present invention. The term "computing device-accessible storage medium" should accordingly be understood to include, but not be limited to, solid-state memories, optical and magnetic media, etc.

Alternative Embodiments of Makeup Brushes

[00115] Various embodiments of rotating makeup brushes are described in U.S. Published Patent

Applications 2012/0260931, 2013/0098382, and 2014/0034075, which are hereby incorporated herein by reference in their entirety. A currently available commercial version of a general type of motorized rotating brush taught in these patent applications is the BlendSmart automatic rotating makeup brush (see www.blendsmart.com). In particular embodiments, such as the embodiment shown in Figure 8, such rotating makeup brushes may, for example, comprise a motorized handle portion 702 and a makeup brush head portion 704 that is adapted to be selectively attached to, and detached from, the motorized handle portion 702 so that the handle' s motor 706 selectively rotates the makeup brush's head portion 704 relative to the handle portion 702. (In alternative embodiments, the makeup brush head portion may be permanently affixed to the motorized handle portion.) Various improvements to the structure and operation of rotating makeup brushes, such as the makeup brushes described in the above-referenced patent applications (as well as to other, non-rotating makeup brushes and other types of brushes) are described below.

Rotating makeup brush with variable brush head speed

[00116] Turning to Figure 8, in various embodiments, the motorized handle portion 702 includes a motor assembly 706 that allows a user to selectively vary the speed of the handle' s motor (e.g., before, during, or after use of the brush). The motor assembly may include various gears that are selectively engageable to change the rotational speed of the motor. In other embodiments, the motor assembly may include a switch having one or more discreet speed positions that varies the motor speed corresponding to the one or more discreet speed positions. In still other embodiments, the motor assembly may have a variable switch (e.g., rheostat, computer controller, etc.) that varies the voltage to the motor. This may allow the user to customize the speed of the makeup brush head' s 704 rotation, which may help the user in executing a particular makeup application technique. Computerized rotating makeup brush with brush heads that automatically set certain operational parameters of the makeup brush

[00117] Still referring to Figure 8, in particular embodiments, the motorized handle portion 702 is computerized - for example, the motorized handle portion 702 may include a computer processor 708 that is operably connected to suitable memory and one or more suitable input and/or output devices. In particular embodiments, the computerized handle comprises an RFID reader 710, and at least one of the makeup brush's makeup brush heads 704, 750 comprises an integrated RFID chip 712 that is adapted to communicate with the handle' s computing system via the RFID reader 710. In particular embodiments, the RFID chip 712 and the RFID reader

710 are adapted so that, when the makeup brush head 704, 750 is in close proximity with (e.g., attached to) the handle 702, the computerized handle 702 receives specific brush information from the RFED chip 712 (e.g., a particular makeup brush code). This specific brush information may be, for example: (1) a particular brush identifier code associated with the makeup brush head' s specific brush type, model number, etc.; (2) a code that indicates a default rotational speed, torque setting, expected brush life (e.g., in hours, days, etc.) and/or rotational pattern for the brush; and/or (3) any other suitable information. The computerized brush handle 702 may use this information, for example, to automatically adjust the motor/brush head's 704, 750 rotational speed and/or the torque that the motor 706 applies to the brush head 704, 750 at least partially in response to: (1) the brush head 704, 750 being attached adjacent (e.g., to) the handle

702; and/or (2) the brush head 704, 750 being moved adjacent the handle 702. This may facilitate the automatic adjustment of the brush head' s speed, torque, density setting, brush configuration setting and/or other characteristics (e.g., rotational patterns) when the user removes one type of makeup brush head 704, 750 from the handle 702 and attaches an alternate makeup brush head 704, 750 to the handle 702 (e.g., the system may automatically detect the presence of the new makeup brush head 704, 750 and adjust the rotating makeup brush' s parameters accordingly).

[00118] In certain embodiments, technologies other than RFID may be used to communicate information regarding the makeup brush head 704, 750 to the rotating makeup brush's computing system. For example, the makeup brush 700 may comprise a camera that may be used to take picture of the brush head 704, 750. The makeup brush' s computing system (e.g., computer processor) may then apply Optical Character Recognition (OCR) techniques and/or image recognition techniques to the image in order to identify the brush head (e.g., the type, model, and/or serial number of the brush head). The makeup brush's computer system may then determine a preset set of brush parameters from, for example, a suitable data structure (e.g., lookup table) stored in the memory of the makeup brush's computer system and set the brush's parameters and/or other information to match the determined set of brush parameters. This may, for example, allow the makeup brush to operate in a manner that is optimized for the brush head 704, 750 that is currently attached to the makeup brush's handle. For example, the system may set the computer system's parameters so that the makeup brush' s motor rotates the brush head 704, 750 at a certain speed or torque that is optimal for that brush head 704, 750.

[00119] The parameters may also indicate a brush life for the brush, which the makeup brush's computer system (or other computer system) may use to determine when to alert a user that it is time to change the brush head (as discussed elsewhere herein). The parameters may also indicate a recommended cleaning cycle for the brush, which the makeup brush's computer system (or other computer system) may use to determine when to alert a user that it is time to clean the brush head (as discussed elsewhere herein).

[00120] While the above techniques describe setting the rotating makeup brush' s operational parameters in response to information received from, or about, the makeup brush's current brush head, the system may also use similar techniques to set the rotating makeup brush' s operational parameters in response to other information, or combinations of different types of information. For example, the makeup brush system may be adapted to receive information regarding makeup that the user is currently using the makeup brush to apply, and to use this makeup information (optionally in combination with information regarding the makeup brush head that is currently operationally attached to the makeup brush's handle) to determine and set the makeup brushes' operational parameters. For example, the system may reference a data structure stored in the system's memory to identify one or more operational parameters (e.g., brush head speed, torque, brush density setting, brush configuration setting, and/or one or more rotational patterns/algorithms that the brush should be operated in) that are ideal for using the current brush head with the makeup that the user is currently applying. The system may then set the makeup brushes' operational parameters to match the identified operating parameters. [00121] It should be understood that, while the above steps describe using a camera or RFID reader associated with the makeup brush to identify the makeup brush head 704, 750 and/or makeup to be used with the makeup brush, alternatively, a remote computing device (e.g., the user's smartphone or tablet computer that is in communication with the rotating makeup brush' s onboard computer system) may be used to execute one or more aspects of the functionality discussed above. Also, in various embodiments, the system may be adapted to allow a user to manually enter information regarding the makeup brush head and/or makeup to be used.

Computerized makeup brush with interchangeable heads and "change brush" or "clean brush " indicator

[00122] In particular embodiments, the computerized makeup brush system may be adapted to monitor the amount of time that a particular makeup brush head has been used and, at least partially in response to the system determining that the makeup brush head has been used for at least a threshold amount of time: (1) generate an alert to the user indicating that the user should replace the brush head 704; (2) facilitate automatically re-ordering the brush head 704; and/or (3) generate an alert to the user indicating that the user should clean the brush head 704. In particular embodiments, the system may determine the threshold period of time based, at least in part, on the model of the brush, which the system may determine in any suitable way, such as the ways discussed elsewhere in this patent application.

[00123] As an example, in the embodiments discussed in regard to the computerized rotating makeup brush with brush heads that automatically set certain operational parameters of the makeup brush, above, each respective RFID chip 712 may include a unique identifier for its respective makeup brush and the computerized handle includes software 714 may be adapted to monitor and/or approximate the amount of time (e.g., hours, minutes, etc.) that the makeup brush is used and/or the amount of wear on the brush. For example, the software 714 may track: (1) the amount of time that the particular brush 700 has been in active use (e.g., the amount of time that the motor 706 has rotated the brush head portion 704 relative to the handle 702); (2) the amount of time that the particular brush 700 has been attached to the brush handle 702; and/or (3) the amount of power used by the brush 700 when the brush head portion 704 was mounted to the brush handle 702. In particular embodiments, the computerized brush handle 702 may be adapted to generate an alert to the user in response to the handle's on-board computer 708 (or another computer) determining that one or more use thresholds has been reached or exceeded (e.g., in response to determining that the particular brush has been actively used for more than predetermined number of minutes (e.g., more than 120 minutes)). The alert may be any suitable alert that may be used to indicate, to the user, that it is time to change the makeup brush head 704. In particular embodiments, the computerized handle 704 may include suitable hardware 716 for wireless communications and may, in response to determining that one or more use thresholds has been reached or exceeded: (1) send an electronic communication to a computerized device associated with the user instructing the user to replace or clean their makeup brush head 704; (2) automatically facilitate re-ordering the brush via the user's account from a suitable on-line retailer, such as Amazon.com; and/or (3) take any other suitable action.

Computerized makeup brush that is configured for tracking the motion and/or particular method use of the makeup brush (e.g.,for training purposes)

[00124] In further embodiments, the computerized makeup brush 700 includes one or more sensors 718 (e.g., pressure sensors, gyroscopes, accelerometers, etc.) within or on the motorized handle (e.g. can be eternally coupled to the motorized handle) 702 and/or one or more of the replaceable brush heads 704, 750 that communicate with the makeup brush's on-board computer system 708 and/or an external computing device 554 (e.g., in the manner discussed above). In particular embodiments, the one or more sensors 718 comprise a gyroscope and an accelerometer. In some embodiments, the one or more sensors 718 comprise a magnetometer.

In some embodiments, the one or more sensors 718 are embedded in the handle of the makeup brush.

[00125] In particular embodiments, the makeup brush 700 or the external computing device 554 is adapted to receive data from the one or more sensors 718 and to use the data to assess how the makeup brush 700 is being used to apply makeup (e.g., how the makeup brush is being moved adjacent the user's body, how it is touching (or angled) with respect to the user's face, or how much pressure is being asserted when applying the makeup to the user' s body). The makeup brush' s on-board computer system 708 and/or the external computing device 554 may then, at least partially based on this assessment: (1) provide feedback to the user (e g., via a suitable computer display 720 on the brush' s handle or via an external computer display, via audio feedback, via an electronic message, or via any other suitable communication) regarding their makeup application techniques (e.g., by showing the user by way of a video "avatar" that mimics or documents the physical motions and techniques of the user by way of a video or hologram; by providing positive feedback for good performance, or one or more suggestions on how to improve their application techniques); (2) modify the rotational motion of the brush head portion 704 to improve the performance of the makeup brush 700 based on the current conditions (e.g., the current motion of the hand that is controlling the brush 700 or the pressure of the brush on the face - so if too much pressure, it will know to speed it up to counteract the resistance of the added pressure; or perhaps provide an audio or physical warning e.g., a blinking light, a vibration, a sound, or even stop the brush head if it happens to be a spinning, vibrating or otherwise non-stationary brush head); (3) provide feedback to a makeup application coach who will then train the user on how to better use the motorized rotating makeup brush 700 to apply makeup; and/or (4) provide feedback to the user regarding which makeup products would best suit their makeup application style.

[00126] In various embodiments of standard non-spinning brushes and also in motorized brush handles, the system may be configured to capture the motion that a professional uses on a person while using the brush, so that person can learn the technique. For example, in various embodiments, the person may watch a video playback of the professional applying makeup to the person. In other embodiments, a professional or other user may create and share a captured makeup application technique using the computerized spinning or non-spinning brush and share the technique with other users over a network or other marketplace where techniques can be shared.

[00127] In various embodiments, a computerized makeup brush comprises (1) a computerized brush handle 702 having a first end and a second end. A brush head 704 has a plurality of bristles, wherein an end of the brush head is removeably attached adjacent the first end of the handle. In various embodiments, the computerized handle 702 further comprises one or more computer processors 708, memory operatively coupled to the one or more processors 708, and one or more sensors 718 that are operatively coupled to the one or more processors 708. In some embodiments, the one or more sensors 718 are adapted to sense the movement of the makeup brush 700 relative to a particular portion of the user' s body when the makeup brush 700 is used to apply makeup to the particular portion of the user's body. Additionally, the one or more processors 708 are adapted record data representing the movement of the makeup brush 700 relative to the particular portion of the user's body over a particular period of time as the makeup brush 700 is used to apply makeup to the particular portion of the user's body, and to save the recorded movement of the makeup brush to the memory.

[00128] In various embodiments, the one or more processors 708 is adapted to facilitate the transmission of the data representing the movement of the makeup brush to an external computing system 554 so that the external computing system may use the data to generate and display, to a user, a visual representation of the movement of the makeup brush over the particular period of time. In some embodiments, the external computing system 554 comprises a handheld computing device that is adapted for running executable software to generate and display the visual representation of the movement of the makeup brush 700 over the particular period of time. In various embodiments, the visual representation of the movement of the makeup brush depicts the movement of the makeup brush relative to the particular portion of the user's body over the particular period of time. In other embodiments, the visual representation comprises a visual representation of the particular portion of the user's body and a moving visual representation of the makeup brush as the makeup brush 700 applies makeup to the particular portion of the user' s body over the particular period of time. In still other embodiments, the visual representation of the makeup brush comprises an animated representation of the makeup brush that has been generated based, at least in part, on the recorded data. In some embodiments, the visual representation of the particular portion of the user's body comprises a computer- generated representation of the particular portion of the user's body. In still other embodiments, the visual representation of the particular portion of the user's body comprises an image of the particular portion of the user' s body.

[00129] In various embodiments, the one or more sensors 718 comprise a camera that is operably connected to the one or more processors so that the image of the particular portion of the user' s body is an image that was captured by the camera during the particular period of time. In various embodiments, the computerized makeup brush 700 comprises a camera that is operably connected to the one or more processors, and the visual representation of the particular portion of the user's body comprises a video of the particular portion of the user's body taken by the camera over the particular period of time. In some embodiments, the visual representation of the movement of the makeup brush is a graphical animation of the movement of the makeup brush 700 that is used, in conjunction with the video, to display an enhanced reality depiction of the movement of the makeup brush relative to the particular portion of the user's body over the particular period of time.

[00130] In various embodiments, a computer-implemented method of training a user to effectively apply makeup using a computerized makeup brush 700 comprises receiving, from a computerized makeup brush 700 that comprises one or more sensors 718 for sensing the movement of the makeup brush relative to a particular portion of a user' s body, data representing a movement of the makeup brush relative to the particular portion of the user's body over a particular period of time as the makeup brush is used to apply makeup brush to the particular portion of the user's body, and using the data to generate and display, to a user, a visual representation of the movement of the makeup brush over the particular period of time. In various embodiments, the visual representation of the movement of the makeup brush 700 depicts the movement of the makeup brush relative to the particular portion of the user's body over the particular period of time. In some of these embodiments, the visual representation comprises a visual representation of the particular portion of the user's body and a moving visual representation of the makeup brush as the makeup brush applies makeup to the particular portion of the user's body over the particular period of time. In some embodiments, the visual representation of the makeup brush comprises an animated representation of the makeup brush that has been generated based, at least in part, on the recorded data. In particular embodiments, the visual representation of the particular portion of the user's body comprises a computer- generated representation of the particular portion of the user's body. In other embodiments, the visual representation of the particular portion of the user's body comprises an image of the particular portion of the user' s body.

[00131] In various embodiments, the one or more sensors 718 comprises a camera that is operably connected to the one or more processors where an image of the particular portion of the user' s body being displayed is an image that was captured by the camera during the particular period of time. In some embodiments, the visual representation of the particular portion of the user's body comprises a video of the particular portion of the user' s body taken by the camera over the particular period of time. In particular embodiments, the visual representation of the movement of the makeup brush is a graphical animation of the movement of the makeup brush 700 that is used, in conjunction with the video, to display an enhanced-reality depiction of the movement of the makeup brush relative to the particular portion of the user's body over the particular period of time

[00132] In particular embodiments, the computerized makeup brush 700 is adapted to communicate (e.g., via Bluetooth, Near Field Communications, beacon technologies, or any other suitable communication channel) with a remote computing device 554, such as a handheld computing device (e.g., a smartphone or tablet computer), a laptop computer, a remote computer, or any other suitable device. In particular embodiments, the computerized makeup brush 700 is adapted to be controlled remotely by the external computing device 554 (e.g., automatically by a computer program - e.g., an "app" - that is run on the external computing device 554, or by a computer program that controls the makeup brush 300 based on manual input - e.g., joystick and/or controller input - provided by a user of the external computing device). This may, for example, allow a user who is not experienced in applying makeup to have makeup applied to their body (e.g., face) by a remote makeup artist or other user, and/or by predetermined computer-controlled routine that, for example, may simulate the makeup application techniques of an experienced makeup artist.

Computerized makeup brush that is configured to visually assess the quality of the application of makeup to the user's body

[00133] In further embodiments, the computerized makeup brush 700 and/or the external computing device 554 comprises one or more cameras 722, connected wired or wirelessly thereto, are configured for taking one or more images of a body surface before, as, or after the makeup brush is used to apply makeup to the body surface of the user. The computerized makeup brush 700 and/or external computing device may use the captured visual information to, for example: (1) determine whether the makeup that is being applied to the user's body surface is an appropriate match for their skin color (e.g., by comparing a skin tone in a captured image to the tone of the makeup applied to the skin); (2) determine whether the makeup is being applied in an acceptable amount (e.g., applied sufficiently to cover the area but not too heavy as to cake); and/or (3) determine whether the user is using correct techniques (e.g., correct movement of the makeup brush 700 relative to the user's body surface) to apply the makeup. The computerized makeup brush 700 and/or external computing device 554 may then, at least partially in response to receiving and analyzing this data, communicate one or more appropriate recommendations to the user for improving the application of makeup to the user's skin.

[00134] In various embodiments, a computerized makeup brush 700 comprises a handle 702 having a first end and a second end, a plurality of bristles (e.g., the brush head 704) attached adjacent the first end of the handle 702, one or more computer processors 708 coupled to the handle 702 (e.g., attached to, received in a cavity formed therein, etc.), memory operatively coupled to the one or more processors, and one or more cameras 722 operatively coupled to the one or more computer processors 708. In various embodiments, the one or more cameras 722 are adapted to capture one or more images of a particular part of a user's body as a user uses the makeup brush to apply makeup to the particular part of the user's body. In some embodiments, the one or more computer processors 708 are adapted to store the one or more captured images in the memory of the computerized makeup brush 700.

[00135] In various embodiments, the one or more processors 708 are adapted to automatically determine, based on the one or more images, whether the user has used the makeup brush to execute one or more particular makeup application techniques to apply makeup to the particular part of the user' s body. For example, the one or more processors 708 are adapted for, in response to determining that the user has not used the makeup brush to execute the one or more particular makeup application techniques to apply makeup to the particular part of the user' s body, generating an alert to a user. In particular embodiments, the one or more processors 708 are adapted to automatically determine, based on the one or more images, whether the color of the makeup being applied by the makeup brush is a suitable match for the user' s skin. In some embodiments, the one or more processors 708 are adapted to determine whether the color of the makeup being applied by the makeup brush are a suitable match for the user's skin by comparing a color of the user's skin, as determined from the one or more images, with a color of the makeup after the makeup has been applied to the user's skin, as determined from the one or more images.

[00136] In various embodiments, the one or more processors 708 are adapted to automatically determine, based on the one or more images, whether the makeup brush are uniformly applying makeup to the particular part of the user's body. In particular embodiments, the one or more processors 708 are adapted to determine whether the makeup brush is uniformly applying makeup to the particular part of the user' s body by comparing a first color of makeup applied by the makeup brush to a first portion of the particular part of the user's body with a second color of makeup applied by the makeup brush to a second portion of the particular part of the user' s body. In response to determining that the first and second colors are substantially different, the one or more processors 708 determine that the makeup brush is not uniformly applying makeup to the particular part of the user's body, and in response to determining that the first and second colors are not substantially different, the one or more processors 708 determine that the makeup brush is uniformly applying makeup to the particular part of the user's body.

[00137] In various embodiments, the one or more processors 708 are adapted to, in response to determining that the makeup brush is not uniformly applying makeup to the particular part of the user's body, generate an alert to the user. In other embodiments, the one or more processors 708 are adapted to automatically determine, based on the one or more images, whether the makeup brush is currently applying a desired amount of makeup to the particular part of the user' s body. In particular embodiments, the one or more processors 708 are adapted for, in response to determining that makeup brush is not currently applying a desired amount of makeup to the particular part of the user's body, generating an alert to a user. In other embodiments, the one or more processors 708 are adapted for determining whether the makeup brush is currently applying a desired amount of makeup based, at least in part, on the intensity of the color of makeup that has been applied to the particular part of the user's body. In some embodiments, the one or more processors 708 are adapted for determining the intensity of the color of makeup from the one or more images.

[00138] In various embodiments, the one or more processors 708 are adapted to facilitate the transmission of the one or more images to a remote computing device 554 that is adapted to automatically determine, based on the one or more images, whether the user has used the makeup brush 700 to execute one or more particular makeup application techniques to apply makeup to the particular part of the user' s body. In some embodiments, the remote computing device 554 is adapted for, in response to determining that the user has not used the makeup brush to execute the one or more particular makeup application techniques to apply makeup to the particular part of the user's body, generating an alert to a user. In particular embodiments, the one or more processors 708 are adapted to facilitate the transmission of the one or more images to the remote computing device 554 that is adapted to automatically determine, based on the one or more images, whether the makeup brush is currently applying a desired amount of makeup to the particular part of the user's body. In various embodiments, the remote computing device 554 is adapted for, in response to determining that makeup brush is not currently applying a desired amount of makeup to the particular part of the user's body, generating an alert to a user. In some embodiments, the remote computing device 554 is adapted for determining whether the makeup brush is currently applying a desired amount of makeup based, at least in part, on the intensity of the color of makeup that has been applied to the particular part of the user's body. In some embodiments, the remote computing device 554 is adapted for determining the intensity of the color of makeup from the one or more images.

In particular embodiments, a computerized makeup brush 700 comprises a handle 702 having a first end and a second end, a plurality of bristles (e.g., brush head 704) attached adjacent the first end of the handle, one or more computer processors 708, memory operatively coupled to the one or more processors 708, and one or more makeup layer thickness sensors 718 and/or 722 operatively coupled to the one or more computer processors 708. One or more makeup layer thickness sensors 718 and/or 722 are adapted to sense the thickness of a layer of makeup that the makeup brush is applying, or has recently applied, to a particular portion of particular portion of a user's body, and the one or more computer processors 708 are adapted to store data regarding the thickness of the layer of makeup in the memory of the computerized makeup brush 700. In various embodiments, the at least one of the one or more makeup layer thickness sensors 718 and/or 722 is an ultrasonic sensor. In other embodiments, at least one of the one or more makeup layer thickness sensors 718 and/or 722 is a particle sensor that is adapted to determine a concentration of makeup particles adjacent the particular portion of the user's body. In still other embodiments, at least one of the one or more makeup layer thickness sensors 718 and/or 722 is a digital scent sensor that is adapted for determining a thickness of makeup based, at least in part, on the scent of the layer of makeup. Computerized makeup brush that is configured to wirelessly accept firmware updates

[00140] In further embodiments, the computerized makeup brush 700 and/or the one or more remote computing devices 554 may include a wireless or wired connection between the devices that allows the one or more remote computing devices 554 to update firmware used by the computerized makeup brush. In this way, the computerized makeup brush can be updated to include new routines, new features, etc. by updating the software/firmware used by the computerized makeup brush 700.

Computerized rotating makeup brush that is configured not to operate properly with non-compliant brush heads

[00141] In particular embodiments, the computerized makeup brush 500 (such as any embodiment of the computerized makeup brush described above) may be configured to only work with particular brush heads 704, 750. The computerized handle 702 may, for example, comprise an RFID reader 710, and each makeup brush head 704, 750 may comprise an integrated RFID chip 712, 752. The RFID chip 712, 752 may be configured to communicate with the RFID reader 710 by, for example, transmitting a particular code when the makeup brush head is placed on the computerized handle 702. In various embodiments, each particular brush head' s RFID chip 712, 752 may be programmed with a unique code (e.g., unique to the particular brush head). In other embodiments, each particular type of brush head 704, 750 may include a code that is unique to that particular type of brush head. The computerized handle 702 may determine, based at least in part on the particular code transmitted by the RFID chip 712,

752 in the makeup brush head 704, 750, whether the makeup brush head 704, 750 is an approved makeup brush head. In response to determining that the makeup brush head 704, 750 is an approved makeup brush head, the computerized makeup brush handle 702 may function normally, for example, by having its brush handle rotate the brush head 704, 750 and thereby enabling a user to rotationally apply makeup from the makeup brush head 704, 750 using the computerized, motorized handle 702. In response to determining that the makeup brush head

704, 750 is not an approved makeup brush head, the computerized makeup brush handle 702 is configured to disable the rotation feature of the computerized makeup brush handle such that the computerized makeup brush is inoperable for the purpose of using the computerized makeup brush' s motor to rotationally apply makeup using the unapproved makeup brush head 704, 750. [00142] In various embodiments, preventing the use of unapproved brush heads may, for example: (1) ensure that only brush heads of a particular quality are used with the computerized makeup brush (e.g., to ensure a positive customer experience); (2) limit an ability of a competitor to sell brush heads for the computerized makeup brush; (3) etc. In particular embodiments, the computerized handle 702 is configured to store (e.g., in local memory) a list of approved brush head codes for determining whether a particular brush head is an approved brush head. In various embodiments, the system is configured to update the list of approved brush heads (e.g., using any suitable technique). In other embodiments, this information may be stored and updated remotely and accessed, as needed by the makeup brushes' on board computing system.

[00143] A computer-controlled motorized makeup brush, according to various embodiments, comprises: (1) a motorized handle portion comprising an RFID reader, a computer-controller, and at least one motor configured to selectively cause at least a first portion of a makeup brush head to rotate about a central access of the computer-controlled motorized makeup brush; (2) a coupling assembly disposed adjacent an end of the motorized handle portion; and (3) a makeup brush head comprising a plurality of bristles and an RFID tag, wherein the makeup brush head is adapted to be selectively coupled to the motorized handle portion via the coupling assembly.

[00144] In particular embodiments, the computer-controller is configured to: (1) use the RFID reader to read the RFID tag to determine whether the makeup brush head is an approved makeup brush head; (2) in response to determining that the makeup brush head is an approved makeup brush head, enabling a user to rotationally apply makeup from the makeup brush head using the computer-controlled motorized makeup brush by controlling the at least one motor to cause the makeup brush head to rotate about the central access of the computer-controlled motorized makeup brush; and (3) in response to determining that the makeup brush head an unapproved makeup brush head, disabling the at least one motor from causing the at least the first portion of a makeup brush head to rotate about the central access of the computer-controlled motorized makeup brush such that the computer-controlled motorized makeup brush is inoperable for the purpose of using the at least one motor to rotationally apply makeup using the unapproved makeup brush head. [00145] In some embodiments, using the RFID reader to read the RFID tag to determine whether the makeup brush head is an approved makeup brush head comprises: (1) using the RFID reader to read a unique code associated with the RFID tag; and (2) comparing the unique code with one or more authorized codes stored in memory associated with the computer-controlled motorized makeup brush to determine whether the makeup brush head is an approved makeup brush head.

[00146] In various embodiments, the computer-controller is further configured for: (1) receiving, from a computing device, an updated listing of the one or more authorized codes; and (2) in response to receiving the updated listing of the one or more authorized codes, storing the updated listing in the memory. In various embodiments, the computer-controller is configured to receive the updated listing as part of a firmware update, such as in any way described above. In various embodiments, the computer-controller is configured for receiving the updated listing of the one or more authorized codes form the computing device via a suitable wireless or wired connected such as via, for example: (1) USB; (2) Ethernet; (3) WIFI; (4) Bluetooth; (5) NFC; and (6) any other suitable connection.

Computerized rotating makeup brush with charging station

[00147] In various embodiments, the computerized makeup brush comprises at least one rechargeable battery (not shown) (e.g., Nickel Cadmium (NiCd), Nickel Metal Hydride (NiMH), Lithium Ion (Li Ion), Sealed Lead Acid (SLA) variations (AGM, Gel), or any other suitable rechargeable battery). In particular embodiments, the computerized makeup brush further comprises a charging station (not shown) (e.g., a charging base) configured to charge the rechargeable battery. In particular embodiments, the charging station is configured to charge the rechargeable battery using any suitable charging technique, such as inductive charging. In particular embodiments, the charging station is configured to support the rotating makeup brush in a substantially upright position while charging the rechargeable battery. In such embodiments, when the rotating makeup brush is in the substantially upright position, the bristles of the makeup brush are facing substantially upwards (e.g., relative to a support surface on which the charging station is placed) such that the bristles are not contacting any portion of the base or the support surface. [00148] In still other embodiments, the charging station is configured to support the rotating makeup brush in a hanging position in which the rotating makeup brush: (1) is supported adjacent a portion of the rotating makeup brush such that the rotating makeup brush hangs with the makeup brush (e.g., and the bristles of the makeup brush) facing substantially downward toward the support surface; and (2) the makeup brush's rechargeable battery is charged via an inductive charging technique (e.g., or any other suitable charging technique) while the rotating makeup brush is in the hanging position. In various embodiments, the charging station is configured to support the rotating makeup brush in a parallel position relative to a support surface on which the charging station is placed. For example, the charging station may have one or more supports for holding and balancing the rotating makeup brush parallel relative to a support surface on which the charging station is placed. In such embodiments, when the rotating makeup brush is placed in the charging station, the bristles do not contact any portion of the charging station or the support surface.

[00149] A rechargeable motorized makeup brush according to various embodiments, comprises:

(1) a motorized handle portion comprising a rechargeable battery and at least one motor configured to selectively cause at least a first portion of a makeup brush head to rotate about a central access of the rechargeable motorized makeup brush; (2) a coupling assembly disposed adjacent an end of the motorized handle portion; (3) a charging station comprising a base portion and a makeup brush support portion configured for supporting the rechargeable motorized makeup brush; and (3) a makeup brush head comprising a plurality of bristles, wherein the makeup brush head is adapted to be selectively coupled to the motorized handle portion via the coupling assembly. In various embodiments, the charging station is configured for providing an electrical charge to the rechargeable battery while the charging station is supporting the rechargeable motorized makeup brush on the makeup brush support portion.

[00150] The charging station may, for example, provide the electrical charge via alternating or direct current. In various embodiments, the charging station is configured for providing the electrical charge to the rechargeable battery using a suitable inductive charging technique (e.g., via electromagnetic induction), for example, through one or more inductive couplings. In particular embodiments, the charging station comprises at least a first induction to create an alternating electromagnetic field from within the charging station, and a second induction coil in the rechargeable motorized makeup brush takes power from the electromagnetic field and converts It back into electric current to charge the rechargeable battery. In various embodiments, the two indication coils (e.g., at least two induction coils) in proximity combine to form an electrical transformer. In still other embodiments, the charging station transmits power tot eh rechargeable battery via resonant inductive coupling.

Makeup brush with multi-directional brush movement

[00151] In particular embodiments, such as the embodiment shown in Figure 9, the makeup brush is configured to rotate as well as move laterally along a radius of the axis of rotation 802. In the embodiment shown in this figure, the makeup brush comprises an outer portion 800, a substantially spherical bristle support portion 850 disposed at least partially within the outer portion, and a plurality of bristles. In various embodiments, the bristle support portion 850 and outer portion 800 are connected via a ball/joint connection so that the bristle support portion 850 may rotate orbitally relative to the outer portion 800. In such embodiments, the bristle support portion 850 may be configured to sweep back and forth between position A and position C and/or other positions. In still other embodiments, the bristle support portion 850 may be configured to sweep back and forth between position A and position C while the makeup brush rotates about the axis of rotation. In other embodiments, the bristle support portion 850 is configured to selectively remain in position A, position B, or position C while rotating the makeup brush about its central axis. In various embodiments, the bristle support portion 850 is configured to sweep back and forth between positions A and C while the makeup brush (e.g., including both the outer portion 800 and the bristle support portion 850) is spinning about its central axis. In particular embodiments, the makeup brush (e.g., and/or the computerized handle) is configured to cause the bristles to move in any suitable manner relative to the computerized handle (not shown) while in operation, using, for example, any combination of rotation and sweeping movement. This may result in movement by the bristles such as, for example, a figure eight movement, rotation at an angle, or any other suitable movement.

[00152] In a particular embodiment, the bristle support portion may be configured to sweep back and forth between positions A and C while the makeup brush is substantially static (e.g. not rotating) in order to enable a user to apply makeup using a different technique. In particular embodiments, the bristle support portion 850 is maintained substantially within the outer portion 800 using any suitable means (e g., one or more pins, one or more lips, one or more ridges, etc.) and moved relative to the axis rotation using any suitable means (e.g., one or more levers, one or more gears, one or more biasing mechanisms, etc.). In various embodiments, the makeup brush comprises a biasing mechanism for biasing the bristle support portion 850 toward position B.

[00153] A motorized makeup brush, according to particular embodiments, comprises: (1) a motorized handle portion; (2) a coupling assembly disposed adjacent an end of the motorized handle portion; (3) at least one motor disposed at least partially within the motorized handle portion; and (4) a makeup brush comprising a plurality of bristles that is adapted to be selectively coupled to the motorized handle portion via the coupling assembly. In particular embodiments, the at least one motor is configured to: (1) selectively cause at least a first portion of the makeup brush to rotate about a central access of the makeup brush; (2) selectively cause at least a second portion of the makeup brush to revolve abut a central access of the motorized handle portion; and (3) selectively cause the at least a third portion of the makeup brush to move laterally relative to the motorized handle portion. In various embodiments, the first portion, second portion and third portion of the makeup brush comprise the plurality of bristles.

[00154] In particular embodiments, the motorized makeup brush further comprises a gear assembly suitable translating a rotation of the at least one motor to cause at least the first portion of the makeup brush to rotate about a central access of the makeup brush, at least a second portion of the makeup brush to revolve abut a central access of the motorized handle portion, and the at least a third portion of the makeup brush to move laterally relative to the motorized handle portion. In various embodiments, the gear assembly comprises a suitable gear assembly for causing reciprocating motion, rotation, oscillation, revolution, or any other suitable movement of the makeup brush relative to the handle. The gear assembly may comprise, for example, (1) one or more gears; (2) one or more cranks; (3) one or more pistons; (4) one or more crankshafts; or (5) any other suitable components.

[00155] In various embodiments, the at least one motor comprises a first motor, a second motor, and a third motor. In particular embodiments: (1) the first motor is configured to selectively cause at least the first portion of the makeup brush to rotate about the central access of the makeup brush; (2) the second motor is configured to selectively cause at least a second portion of the makeup brush to revolve about a central access of the motorized handle portion; and (3) the third motor is configured to selectively cause at least the third portion of the makeup brush to move laterally relative to the motorized handle portion. In still other embodiments, the third motor is further configured to cooperate with the second motor to selectively cause at least the second portion of the makeup brush to revolve about the central axis of the motorized handle portion.

[00156] In various embodiments, the at least one motor comprises a multidirectional motor for transmitting motion to a moveable element in the makeup brush in at least two directions that are not collinear. In some embodiments, the multidirectional motor comprises: (1) a first motor that is friction coupled to the moveable element and transmits motion to the moveable element along a direction determined by the orientation of the first motor; and (2) a second motor operable to change the orientation of the first motor relative to the moveable element. In various embodiments, the multidirectional motor comprises a suitable motor described in U. S. Patent No. 09/807,755 filed October 26, 1998 and entitled "Multidirectional motors", which is hereby incorporated herein in its entirety.

Programmable/Recordable Brush Movements

[00157] In various embodiments, such as the embodiment discussed above that enables multidirectional brush movement, the computerized makeup brush is configured to enable a user to program the makeup brush 700 to perform a particular brush routine (e.g., a particular movement of the brush (e.g., and bristles) relative to the computerized handle). In such embodiments, a user may program the brush routine using a suitable computing device (e.g., a smartphone, a tablet computer, an application running on the computerized makeup brush, a laptop or desktop computer, etc.) such as one or more remote computing devices 554. In particular embodiments, the system may enable the user to create a program to control any aspect of the brush movement such as, for example, the rotational speed, rotation direction, sweeping speed, etc. of the makeup brush). In various embodiments, the system is configured to enable a user to share the programed brush routine with one or more other users as well as utilize one or more brush routines programed by other users (for example network 515). This may, for example, allow an experienced makeup artist to create a program for later use by those who have less cosmetics experience, which may allow non-professional users to obtain a professional- quality makeup application without the physical involvement of an experienced professional.

[00158] In particular embodiments, the system may be adapted to allow a user to program the makeup brush by simply using the makeup brush to apply makeup to their own body (e.g., face), or to the body of another user. In various embodiments, the system may do this by: (1) using one or more of the makeup brush's onboard sensors 718 (e.g., one or more accelerometers, gyroscopes, brush rotation sensors, etc.) to monitor and save, to memory, an indication of the physical movement of the makeup brush and brush head over a particular time, and then (2) using this saved information to create a program that will cause the makeup brush to recreate one or more of the recorded physical movements of the makeup brush and/or brush head. In particular embodiments, the system may be adapted to create an animated representation (e.g., via an avatar on a computer display screen or other display device) of the recorded movements.

[00159] In particular embodiments, the motorized makeup brush further comprises a computer controller configured to control the at least one motor to selectively cause at least the first portion of the makeup brush to rotate about a central access of the makeup brush, selectively cause at least the second portion of the makeup brush to revolve about a central access of the motorized handle portion, and selectively cause at least the third portion of the makeup brush to move laterally relative to the motorized handle portion.

[00160] In still other embodiments, the computer controller is configured to control the at least one motor to selectively cause at least the first portion of the makeup brush to rotate about a central access of the makeup brush, selectively cause at least the second portion of the makeup brush to revolve about a central access of the motorized handle portion, and selectively cause at least the third portion of the makeup brush to move laterally relative to the motorized handle portion such that the plurality of bristles move in a particular pattern relative to the motorized brush handle. In various embodiments, the computer controller is configured to receive one or more instructions from a computing device associated with a user of the motorized makeup brush, wherein the one or more instructions comprise the particular pattern. In some embodiments, the computer controller is configured to enable the user to program the particular pattern. [00161] As may be understood from Figure 4, in particular embodiments, the particular pattern may comprise a particular brush routine such as, for example: (1) a sweeping motion; (2) a figure eight motion; (3) an angled rotation motion; (4) a combination rotation and sweeping motion; (5) a combination rotation and revolution-about-the-central-axis of the motorized brush handle motion; and (6) a combination rotation, sweeping, and revolution-about-the-central-axis of the motorized brush handle motion. In various embodiments, the computer controller is further configured to enable a user to record and share a particular brush routine with one or more other users for use on a second motorized makeup brush.

Brush with mechanism for selectively adjusting bristle density

[00162] In particular embodiments, such as the embodiment shown in Figure 10A - 10B, the makeup brush 900 may include a collar 905 that may be used to selectively adjust the bristle density of the makeup brush' s brush portion. As may be understood from this figure, in various embodiments, the collar 905 is substantially ring shaped and is connected to the handle portion of the brush via one or more linear actuators that are adapted to move the collar 905 linearly relative to the brush handle' s central axis so that the center of the collar 905 remains substantially on the central axis of the handle portion as the collar 905 moves relative to the brush handle. As the linear actuators move the collar 905 from a first position, see Figure 10A (in which the collar 905 is immediately adjacent the brush support end of the handle), to a second position, see Figure 10B (in which the collar 905 is spaced apart from the handle' s brush support end), the inside of the collar 905 engages the side perimeter portion of the bristles and moves the outer bristles closer to the central axis of the brush. This, in turn, moves the distal tips of the bristles closer together, causing the brush to have a higher bristle density at its distal end.

[00163] In various embodiments, the brush, or remote computing device, may include a suitable control mechanism for allowing a user to cause the actuators to selectively move the collar 905 toward or away from the handle of the brush (e.g., between the first and second positions, or other positions, in either direction). This may allow the user to dynamically control the rigidity of the brush, which may allow the user to use the same brush for different applications, or to create different effects. Automated makeup brush cleaning assembly

[00164] In particular embodiments, a rotating makeup brush 700 may be adapted for use with a makeup brush cleaning apparatus that may include, for example, a makeup brush support and a cleaning surface. In particular embodiments, the makeup brush support is adapted to maintain the makeup brush in a substantially fixed position while: (1) the distal ends of the makeup brushes' bristles maintain contact with the cleaning surface (which may, for example, be a surface of a substantially circular rubber puck, or other suitable cleaning surface); and (2) the makeup brush' s motor rotates the brush head (and its bristles) relative to the cleaning surface. This may, for example, cause the cleaning surface to clean the brush head' s bristles by removing makeup from the bristles through frictional contact with the bristles.

Makeup brush with excess makeup detection system

[00165] A makeup brush (e.g., a computerized makeup brush) 700, according to various embodiments, may include one or more sensors 718 for automatically determining whether too much or too little makeup is currently on the makeup brush. For example, the makeup brush may comprise one or more weight sensors for sensing the weight of makeup on the makeup brush' s bristles. In other embodiments, the makeup brush may comprise one or more sensors 718 that are adapted for sensing the deflection of one or more bristles as the makeup brush's brush head rotates, as described above. The makeup brush' s onboard computer 708 (or a remote computer) may then use this deflection information (e.g., using any suitable algorithm) to determine the amount of makeup that is on the makeup brush' s bristles.

[00166] In particular embodiments, the makeup brush and/or remote computer may be adapted to generate an alert in response to sensing: (1) that too much makeup is on the makeup brush's bristles; and/or (2) that too little makeup is on the makeup brush's bristles (e.g., while the makeup brush is in use). This may help the user obtain a better overall application of the makeup by maintaining the correct amount of makeup on the brush during use.

Conclusion

[00167] Many modifications and other embodiments of the invention will come to mind to one skilled in the art to which this invention pertains having the benefit of the teachings presented in the foregoing descriptions and the associated drawings. For example, as will be understood by one skilled in the relevant field in light of this disclosure, the invention may take form in a variety of different mechanical and operational configurations. For example, while several embodiments above include using the disclosed motorized applicator systems to apply makeup to various parts of a user's body, the motorized applicator systems may be used to apply other types of products to the user's body. Such products include, for example, suntan lotion, massage oils, erotic lotions, and medicinal products. Therefore, it is to be understood that the invention is not to be limited to the specific embodiments disclosed and that modifications and other embodiments are intended to be included within the scope of the appended claims. Although specific terms are employed herein, they are used in a generic and descriptive sense only and not for the purposes of limitation.

Claims

Claims What is claimed is:

1. A motorized makeup brush comprising:

a. an elongated motorized brush support comprising:

i. a first end;

ii. an opposite second end;

iii. a cavity formed therebetween; and

iv. an axis that extends from the first end to the second end;

b. a motor mounted in the elongated motorized brush support cavity, the motor having a shaft that rotates;

c. a coupling formed at the elongated motorized brush support second end that is configured to releasably attach to a makeup brush; and

d. at least one makeup brush head comprising:

i. a generally cylindrical body comprising:

a first end configured to releasably couple to the coupling; and

a second end defining a recess therein that is configured to receive a first plurality of bristles and a second plurality of bristles, the recess being centered about the axis;

ii. a first plurality of bristles where each of the first plurality of bristles have a free end and a bound end; and

iii. a second plurality of bristles where each of the second plurality of bristles have a free end and a bound end,

wherein

the first plurality of bristles surrounds the second plurality of bristles; the free ends of at least a first group of the second plurality of bristles are recessed with respect to the free ends of at least a second group of the first plurality of bristles, and

the bounded end of the bristles of the first and second plurality of bristles are mounted in the at least one makeup brush second end recess.

2. The motorized makeup brush of claim 1, wherein the free ends of the second plurality of bristles are recessed with respect to the free ends of the first plurality of bristles.

3. The motorized makeup brush of claim 1, wherein the free ends of the first plurality of bristles and the free ends of the second plurality of bristles define a recessed surface that is slopes downward from the outermost bristles of the first plurality of bristles to the inner most bristles of the second plurality of bristles positioned at and adjacent the axis.

4. The motorized makeup brush of claim 3, wherein the angle of slope rages from between about 2 degrees to about 25 degrees.

5. The motorized makeup brush of claim 4, wherein the angle of slope rages from between about 8 degrees to about 18 degrees.

6. The motorized makeup brush of claim 1, wherein

a. the first plurality of bristles are mounted in a first portion of the generally cylindrical body;

b. the second plurality of bristles are mounted in a second portion of the generally cylindrical body; and

c. the first portion of the generally cylindrical body is axially moveable with respect to the second portion of the generally cylindrical body along the axis so as to allow the free ends of the least a first group of the first plurality of bristles to be recessed with respect to the free ends of the at least a second group of the first plurality of bristles.

7. The motorized makeup brush of claim 1, wherein the generally cylindrical body second end recess contains a plurality of raised ridges that each extend radially inward toward the axis.

8. The motorized makeup brush of claim 7, wherein each one of the plurality of ridges comprises two ridges positioned adjacent one another.

9. The motorized makeup brush of claim 7, wherein each one of the plurality of raised ridges comprise a first portion proximate the first end having a first height and a second portion proximate the second end having a second height that is less than the first height.

10. A makeup brush for use with a motorized makeup brush support, the makeup brush comprising:

a. a generally cylindrical body comprising:

i. a first end adapted to be rotatably couple to a motorized makeup brush support; ii. a second end that defines a recess therein, the recess being adapted to receive a plurality of bristles; and

iii. a central axis that extends between the first end and the second end, where the generally cylindrical body is adapted to rotate about the central axis when the makeup brush is coupled to the motorized makeup brush support; and b. a plurality of bristles, each of the plurality of bristles comprising:

i. a first free end; and

ii. a second bounded end, where the second bounded end is configured to be received in the recess formed in the generally cylindrical body second end,

wherein

the free ends of at least a first group of the plurality of bristles are recessed with respect to the free ends of at least a second group of the plurality of bristles, and

the at least a first group of the plurality of bristles is positioned radially closer to the central axis than the at least a second group of the plurality of bristles.

1 1. The makeup brush of claim 10, wherein the first free ends of the at least a first group of the plurality of bristles and the first free ends of the at least a second group of the plurality of bristles define a top surface of the makeup brush having a concave cross-section taken parallel to and through the central axis.

12. The makeup brush of claim 10, wherein the first free ends of the at least a first group of bristles and the at least a second group of bristles define a recessed surface that is generally conical in shape.

13. The makeup brush of claim 10, wherein the generally cylindrical body second end recess contains a plurality of raised axial ridges that each extend radially inward toward the central axis, wherein the plurality of axial ridges center the plurality of bristles when the second bounded end of the bristles are inserted into the generally cylindrical body second end recess.

14. The makeup brush of claim 13, wherein each one of the plurality of axial ridges comprises two ridges positioned adjacent one another.

15. The makeup brush of claim 13, wherein each one of the plurality of raised axial ridges comprise a first portion proximate the first end of the generally cylindrical body having a first height and a second portion proximate the second end of the generally cylindrical body having a second height that is less than the first height.

16. The makeup brush of claim 10, wherein the second bounded end of the plurality of bristles are bound by one or more fasteners selected from a group consisting of:

a. a metal band;

b. a rubber band;

c. a polymer band; and

d. an adhesive

17. The makeup brush of claim 16, further comprising a plurality of raised axial ridges formed on the walls of the generally cylindrical body second end recess, wherein:

a. the bounded ends of the plurality of bristles are retained by a metal band ; and b. the bounded ends of the plurality of bristles are retained in the generally cylindrical body second end recess by a press fit between the metal band and the plurality of raised axial ridges.

18. The makeup brush of claim 16, further comprising a plurality of raised axial ridges formed on the walls of the generally cylindrical body second end recess, wherein:

a. the bounded ends of the plurality of bristles are retained by a metal band ;

b. glue is evenly distributed about a bottom surface of the generally cylindrical body second end recess; and

c. the bounded ends of the plurality of bristles are retained in the generally cylindrical body second end recess by the glue and centered about the central axis by the plurality of raised axial ridges.

19. The makeup brush of claim 10, wherein:

a. a first group of the plurality of bristles are mounted in a first portion of the generally cylindrical body;

b. a second group of the plurality of bristles are mounted in a second portion of the generally cylindrical body; and

c. the first portion of the generally cylindrical body is axially moveable with respect to the second portion of the generally cylindrical body along the central axis so as to allow the free ends of second group of bristles to be recessed with respect to the free ends of the first group of bristles.

A motorized makeup brush comprising:

a. an elongated motorized brush support comprising:

i. a first end;

ii. an opposite second end;

iii. a cavity formed therebetween; and

iv. an axis that extends from the first end to the second end;

b. a motor mounted in the elongated motorized brush support cavity, the motor having a shaft that rotates;

c. a coupling formed at the elongated motorized brush support second end that is configured to releasably attach to a makeup brush; and

d. at least one makeup brush comprising:

i. a generally cylindrical body comprising:

a first end adapted to be rotatably couple to the coupling;

a second end that defines a recess therein, the recess being adapted to receive a plurality of bristles; and

a central axis that extends between the first end and the second end, where the generally cylindrical body is adapted to rotate about the central axis; and

ii. a plurality of bristles, each of the plurality of bristles comprising:

a first free end; and

a second bounded end, where the second bounded end is configured to be received in the recess formed in the generally cylindrical body second end, wherein

a first group of the plurality of bristles are surrounded by a second group of the plurality of bristles; and

the free ends of the first group of the plurality of bristles are recessed with respect to the free ends of the second group of the plurality of bristles.