Not Applicable
Not Applicable
Not Applicable
Field of the Invention
This invention relates to applicators, in particular sponges and brushes distribute an application material such as makeup or paint onto a surface.
Description of the Prior Art
In the field of sponge and brush applicators, it is known that different materials have different properties for the application and distribution of application materials such as paints or cosmetics.
Natural application materials, such a bristles, whether of vegetable or animal origin, result from organic growth processes wherein elongated cellular formations build upon one another to form essentially rod-like structures of sufficient resilience and integrity to serve the functional needs required in brushes for painting, powdering, scrubbing, sweeping and the like. It is the cellular wall formation that provides structural character to these natural bristles along with the complex chemical makeup of the specific bristle. Some natural bristles are essentially tapered in that one end of the bristle is larger than the other. Others are not tapered or have very little of this tendency. Natural bristles are mostly irregular in shape along their length, and have scale-like outer surfaces. Some of these are naturally split at the end, forming tiny fingers which are useful in brush performance.
The use of the natural bristles, such as animal hair bristles however, has several significant drawbacks. Inconsistent supplies of natural bristles and unacceptable variations from one batch of bristles to another often impede manufacture of brushes having natural bristles. Natural bristles may also need to be treated for hygienic purposes to eliminate the presence of contaminants. Even if properly treated, many individuals are nevertheless allergic to natural bristles. In addition, natural bristles can be damaged by cleansing agents used to clean the bristles after use.
In view of these problems associated with the use of natural bristles, various attempts have been made to replace natural bristles with synthetic materials such as synthetic filaments made, for example, from polyamides (such as nylon) and polyesters. The use of synthetic bristles has also met with difficulties, however. Synthetic bristle materials usually have little of the cellular structures, shape irregularities or scale-like surfaces. Rather, they have dense polymeric structure and are highly uniform in shape, with smooth surfaces. Synthetic bristles are available in tapered or untapered form, and in cross-sectional profiles of solid round, hollow round, ribbed, S shaped and other shapes dependent on extrusion technology. Many synthetic materials require physical splitting of the ends (flagging) where this is deemed desirable in brushes and do not have the softness, texture and overall appearance of natural bristles.
Advances have been made where synthetic material more closely resemble the characteristics of natural materials. For example, synthetic bristles have advanced such that in the extrusion melt or process of a synthetic filament, certain other additives, sometimes called foaming or blowing agents, including nucleating materials, create tiny gaseous bubbles or other irregularities at random locations within the extruding filaments. In addition, blowing agents can be use in plastic parts manufactured by extrusion, injection and compression molding and other conventional plastic fabricating processes.
In addition to synthetic bristles resilient porous resilient materials such as sponges or foams may be used a material to comprise the application or blending elements.
In the field of cosmetics, these natural and synthetic materials have been used to apply cosmetics. For particular cosmetic uses, such as a typical Foundation Brush, these applicators are designed to retain powder, liquid or cream material from the material holder such as a compact and allow the user to transfer that material to the skin. The properties of the brush help retain the material and distribute it on the skin. A Blending Brush is used to blend the eye shadow color by moving the brush across the skin. This additional distribution of the material moves the liquid or powder around to make the color more even, and enables control over intensity and merging multiple colors in with one another.
In one embodiment, the present apparatus comprises an applicator assembly having an application element, a blending element and a retaining element. The application element comprises a material configured to retain an application material and distribute the application material onto a surface and the blending element comprises a material configured to distribute the application material on the surface. Together the application and blending elements allow the process of transferring, distributing and blending the application material onto the surface to be performed with both elements on a single application assembly. Embodiments of the applicator assembly comprise the application element and the blending element to be made of materials with different characteristics.
It is an object of one embodiment of the invention to provide an applicator assembly having an application element with a proximal end and a distal end, a blending element having a proximal and a distal end and a retaining element positioning the application and blending element adjacent to each other and exposing the distal ends of the application and blending elements. In embodiments of the applicator assembly, the application element comprises a material configured to retain an application material and distribute the application material on a surface and the blending element comprises a material configured to distribute the application material on the surface.
It is another object of embodiments of the invention to provide an applicator assembly wherein the application element material further comprises a material having a characteristic to temporarily retain the application material that is greater than a characteristic of the blending element material to temporarily retain the application material.
It is a further object of one embodiment of the invention to provide an applicator assembly wherein the application element comprises a first plurality of bristles having a first set of bristle characteristics and the blending element comprises a second plurality of bristles having a second set of bristle characteristics. In some embodiments, the application element comprises a first plurality of synthetic bristles, the blending element comprises a second plurality natural bristles and the application material is a liquid or a cream. In some embodiments, the application element comprises a first plurality of natural bristles, the blending element comprises a second plurality of synthetic bristles and the application material is a powder.
It is an object of the one embodiment of the invention to provide an applicator assembly wherein the application material is a cosmetic, the surface is a skin surface of a user, the first plurality of bristles is used to retain a portion of the cosmetic and transfer the cosmetic on the skin surface of the user and the second plurality of bristles is used to distribute the cosmetic on the skin of the user.
It is a further object of embodiments of the invention to provide an applicator assembly where the application or blending elements comprise a resilient porous material.
It is yet another object of one embodiment of the invention to provide an applicator assembly wherein the distal ends of application element and the blending element form a tip plane at an angle ranging from about 20 to 90 degrees to a longitudinal axis of the applicator assembly.
It is an object of one embodiment of the invention to provide an applicator assembly having a first bundle of a plurality of bristles with a first set of bristle characteristics, a second bundle of a plurality of bristles with a second set of bristle characteristics and a ferrule retaining the first and second bundle adjacent to each other.
It is an object of one embodiment of the invention to provide a method of applying a material to a surface comprising the steps of retaining an application material in an application element, transferring the application material from the application element onto a surface, distributing the application material onto the surface with a blending element and the steps of transferring and distributing the application material are performed with an application assembly comprising both the application element and the blending element.
It is another object of one embodiment of the invention to provide a method of applying a material to a surface where the material is a paint.
In order that the manner in which the above-recited and other advantages and features of the invention are obtained, a more particular description of the invention briefly described above will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings. Understanding that these drawings depict only typical embodiments of the invention and are not therefore to be considered to be limiting of its scope, the invention will be described and explained with additional specificity and detail through the use of the accompanying drawings in which:
An applicator assembly will now be described in detail with reference to the accompanying drawings. It will be appreciated that, while the following description focuses on an assembly that is used for the application of cosmetic on the skin of a user, the systems and methods disclosed herein have wide applicability. For example, the applicator assembly described herein may be readily employed with paints, pigments, dyes or other application materials and other material distribution tools and processes. Notwithstanding the specific example embodiments set forth below, all such variations and modifications that would be envisioned by one of ordinary skill in the art are intended to fall within the scope of this disclosure.
One Embodiment of the Applicator Assembly:
The applicator assembly generally comprises an application element, a blending element and a retaining element. For illustration purposes and not for limitation, one embodiment of the present invention is shown in
Referring to
In embodiments, the application element 120 has many characteristics, one of which is a characteristic of being able to retain and/or trap material. The material retaining characteristics are generally the ability of the element to retain portions of an application material and then transfer and distribute the material on a surface. These characteristics may be the result of scale-like outer surface of a natural hair bristle or it may be irregularities on the outer surface, or crimps along the length of a synthetic material that temporarily trap the application material on or in these surfaces. The material retaining characteristics can be different for different bristle/element types and they may also be different for different application materials. For example, it can be easier for a synthetic bristle to retain a cream or a liquid cosmetic, and it can be easier for a natural bristle to retain a powder cosmetic.
In one embodiment, the application element 120 comprises plurality of elongated synthetic bristles retained in a bundle. The bristles are made of a material such as, but not limited to Nylon.612-DuPont.Tynex, PBT-Tapered&Flagged, PET-Solid.Tapered, PET-Hollow&Flagged, Nylon+Polyester. In addition, the application element can comprise a foam made from, but not limited to a naturally frothed PVA, latex foam rubber, natural rubber, nitrile-butadiene rubber or cellulose.
Referring to
As discussed above in relation to the application element 120, embodiments of the blending element 140 include characteristic of being able to retain an application material. Generally, the material retaining characteristics of the blending element are less than the same characteristic of the application element. The blending element allows a generally finer and more blended distribution of the material than the application element. This allows the two elements to work together in embodiments where the blending element primarily transfers and distributes the material onto the surface while the application element primarily retains and transfer the material onto the surface.
In one embodiment, the blending element 140 comprises a plurality of natural hair bristles such as, but not limited to the hair from goats, long haired pigs, ox, sable, raccoon, badger or any of the natural bristle suitable for cosmetic or paint application.
The retaining element 160 comprises an element configured to retain the application and blending elements together so that they can be manipulated together to apply the material. As shown in the embodiment of
In some embodiments, as shown in
Although embodiments of the application assembly are described as having a tip plane at the distal end of the elements, it is contemplated that the shape of the element distal ends can also be of any shape such as being rounded, pointed or jagged. It is also understood that when a tip plane is used, the angle of that tip plane can be of any angle to the longitudinal axis of the assembly.
The tip plane can be used to provide advantageous properties to the user. For example, as shown in
In embodiments, the tip plane can be defined by multiple element tip plane profiles. These element tip plane profiles may be defined by different longitudinal profile shapes of the elements. As shown in
The handle element comprises any configuration that allows a user to manipulate the application and blending elements. One embodiment of the handle is shown in
Although some of the embodiments above describe an application element comprising a synthetic material as the application element and a nature material as the blending element, it is understood that embodiments of the applicator assembly can have application elements that are made of natural materials and blending elements made of synthetic materials. Embodiments having synthetic application elements can be helpful for application purposes when the application material is a liquid or a cream. In embodiments where the application material is a powder, is can be beneficial to have the application element being made of natural material such as a bristle or natural hair. This is because some natural materials have better retaining characteristics for powder than synthetic materials. Similarly, because the application material is a powder, synthetic materials can provide a better blending element material. In these embodiments where the blending element is a synthetic material, this material can be any of the materials discussed above for the application element including, but not limited to synthetic bristles, resilient porous materials such as foams or sponges, or the like.
It is also understood that the applicator assembly can have an application element comprising one type of synthetic material and a blending element comprising a second type of synthetic material. As discussed above, by having two types of materials having two material retaining characteristics, the applicator assembly can provide the desired functionality.
One Embodiment of the Applicator Assembly in Operation:
Operation of one embodiment of the applicator assembly generally comprises placing the application element into or in proximity of the application material so that it can pick up and retain a portion of the material, manipulating the application element so that it distributes the material onto the surface and manipulating the blending element so that it further distributes the material.
For purposes of illustrating the operation of one embodiment of the applicator assembly, and not for limitation, the operation of an applicator assembly for cosmetics is summarized in
In one embodiment, as shown in the process diagram of
Once the material is retained with the application element, the material is transferred and distributed on the surface at step 630. When used with cosmetics, this distribution is done by stroking the brush across the skin of the user. As shown in
The process is finished with step 650.
The process of distributing the material through a stroke that starts with the application element and finishes with the blending element can be enhanced by the tip shape and profile of the elements. A shorted length of the application element bristles allows them to move across the surface and the longer length of the blending element bristles helps make it easier for the use to ensure these bristles are the last bristles to distribute the material on the surface. The longer length of the blending element also allows the use to stroke the skin surface again with the brush and more easily use the longer blending bristles on the skin.
It is understood that many different variations of using the applicator assembly are possible. Applying the material and distributing the material in a single stroke is possible when the application element precedes the blending element through the stoke. The same type of stroke can be used repeatedly to give the same effect. Also, a multiple stroke process may also be used where generally the stroke pattern allows the transfer and distribution of the material from the application element to precede the distribution and blending of the material. For example, multiple strokes being made in one orientation while the brush moves at an angle to that orientation generally in the direction of the application element. This allows the application element to still be the first element to transfer the material while the blending element is the last element to distribute the material on the surface. It is also understood that circular or random strokes can also allow the blending element to provide the major distribution and blending functions of the assembly.
As can be readily seen by others in the art, the same operational process can be used for embodiments of the assembly where the application and/or blending elements comprise a synthetic or natural resilient porous material such as a sponge. Additionally, it is understood that the same operational process can be used for painting or other similar applications of materials onto a surface.
One Embodiment of a Method of Manufacturing the Applicator Assembly:
For purposes of illustrating the steps of manufacturing one embodiment of the applicator assembly, and not for limitation, the operation of an applicator assembly for cosmetics is summarized below and illustrated in the process diagram for
The method 700 starts at step 710 that is followed by step 720 of providing or otherwise obtaining a first and second set of materials to comprise the application and blending element materials and shaping these elements. The illustrations below describe element materials being bristles.
As part of the shaping, the application and blending elements are bundled by a means to bundle the bristles. In embodiments, the means to bundle the bristles is accomplished by manually or mechanically aligning the bristles along their length with the tips of the bristles aligned to create the distal end of the element. Preferably, the tips of the bristles are aligned so that generally the tips of bristles create the shape desired for the proximal end of the bundle. Once the bristles are aligned, a means to shape the bundle shapes the proximal end of the bundle of bristles. In embodiments, the means to shape the bundle comprises placing the proximal end of the bundle in a sleeve and placing the sleeve and end of the bundle into a shaping cylinder. The sleeve is not necessary but can help guide the bristles into the shaping cylinder. Embodiments of the shaping cylinder comprise a cylinder that can retain the elements while a glue or other retaining means is used to hold the proximal end of the element together. For example, one shaping means comprises the shaping cylinder to be a malleable cylinder than can be bent on one end to deform the cylinder and the proximal end of the bundle of bristles. With this embodiment, once bent to the proper shape, an adhesive can be placed into the other end of the cylinder so that it binds essentially all of the distal ends of the bundle of bristles.
After the bundles are shaped, preferably after the adhesive is dry, the bundles are removed from the shaping cylinder and their proximal ends are placed and retained in the distal end of the retaining element at step 730. The elements are aligned as desired and then they are retained in the retaining element. For embodiments where the retaining element is a metallic brush ferrule, the elements are placed in the ferrule distal end, and the ferrule is used to retain the ends of the elements. In embodiments, the ferrule is deformed to frictionally engage the proximal ends of the elements and an adhesive is added between the inside of the ferrule and the elements. In other embodiments, the ferrule is not deformed and the means to retain the elements is with an adhesive between the application and blending elements and the inside of the retaining element.
In embodiments described herein, the elements are aligned in the retaining element so that the distal ends of the application and the blending element form a tip plane. This plane, as shown in
The retaining element can then be connected to the handle with step 740 by placing an adhesive between the retaining element and the distal end of the handle and inserting the distal end into the retaining element.
The process is complete at step 750.
Generally at any time during this process, the distal ends of the application or blending elements can be cut or otherwise shaped as desired. In embodiments that form a tip plane at the distal ends of the elements, the ends of the elements can be cut to form the tip plane.
With respect to the above description then, it is to be realized that the optimum dimensional relationships for the parts of the invention, to include variations in size, materials, shape, form, function and manner of operation, assembly and use, are deemed readily apparent and obvious to one skilled in the art, and all equivalent relationships to those illustrated in the drawings and described in the specification are intended to be encompassed by the present invention.
Therefore, the foregoing is considered as illustrative only of the principles of the invention. Further, since numerous modifications and changes will readily occur to those skilled in the art, it is not desired to limit the invention to the exact construction and operation shown and described, and accordingly, all suitable modifications and equivalents may be resorted to, falling within the scope of the invention. Although this invention has been described in the above forms with a certain degree of particularity, it is understood that the present disclosure has been made only by way of example and numerous changes in the details of construction and combination and arrangement of parts may be resorted to without departing from the spirit and scope of the invention.
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