The present disclosure generally relates to cosmetic, hair care, body care, and/or skincare products and, more particularly, to systems and approaches for applying such products.
Cosmetic, hair care, body care, and/or skincare products may be provided in a number of different containers, and may be applied using a number of varying approaches. As an example, a concealer product may be applied using a user’s finger, an applicator brush, and/or a sponge product, among other alternatives. When applying such products, it may be difficult for a user to accurately dispense an appropriate quantity of product to provide coverage for the desired area. In instances where too much product is dispensed from the container, the excess product may be difficult and/or impossible to return to its container, and ultimately may need to be discarded, thereby resulting in wasted product. Conversely, in instances where too little product is dispensed from the container, the user’s experience may be adversely impacted due to needing to repeatedly dispense additional product. Additionally, existing approaches may lack customization capabilities and may be difficult to use when attempting specific application techniques. Further, existing products may be disposable in nature, and as such may lead to environmental waste.
Accordingly, there is a need for improved accessories having improved functionalities.
Examples within the scope of the present disclosure are directed to an applicator system for containing and dispensing a cosmetic substance. Such a system may include a body including a first end, a second end, and defining an interior cavity, a container at least partially disposed within the cavity of the body and defining a cavity containing a cosmetic substance, a sifter positioned adjacent to the container to retain the cosmetic substance within the cavity, a handle having first and second ends and defining an interior cavity, an inner handle positioned at the first end of the handle, and an applicator. The first end of the handle operably couples with the first end of the body. The inner handle includes an applicator coupling mechanism to which the applicator operably couples. Upon operably coupling the first ends of the body and the handle, the applicator is positioned adjacent to the sifter, thereby collecting a quantity of cosmetic substance.
In an approach, the container is movably disposed within the body between the second end to the first end thereof. Further, in these and other approaches, the applicator system may include a piston assembly positioned at the second end of the body. The piston assembly may urge the container towards the first end of the body. Further, the piston assembly may include a resilient member operably coupled with the second end of the body. In some examples, the piston assembly may generate a surface tension between the sifter and the cosmetic substance. Upon operably coupling the first end of the body with the first end of the handle, the applicator may break the generated surface tension to cause the quantity of cosmetic substance to be collected thereon.
In some examples, the applicator may be removably coupled with the applicator coupling mechanism of the inner handle. In some forms, the sifter may include an abutment to prevent the applicator from advancing into the container.
In some examples, the first end of the body is threadably coupled with the first end of the handle. Further, in some approaches, the second end of the body may be removable to allow the container to be removed therefrom. In some approaches, the handle and the inner handle may be integrally formed.
In some forms, the sifter may at be at least partially constructed from a mesh material having a plurality of openings. In some of these examples, the sifter may be in the form of a movable member that translates within the interior cavity of the body.
In accordance with a second aspect, an approach for automatically dispensing a cosmetic substance is provided that includes providing a body that includes a first end, a second end, and defining an interior cavity and including a container at least partially disposed therein which defines a cavity containing a cosmetic substance. A sifter is positioned adjacent to the container to retain the cosmetic substance within the cavity. A first end of a handle is operably coupled with the first end of the body. The handle includes an interior cavity and an inner handle positioned at the first end of the handle. The inner handle is operably coupled with an applicator. Operably coupling the first end of the handle with the first end of the body causes the applicator to contact the sifter and collect a quantity of cosmetic substance. The approach further includes decoupling the handle from the body to expose the applicator.
In accordance with a third aspect, an applicator system for containing and dispensing a cosmetic substance includes a body including a first end, a second end, and defining an interior cavity, a container at least partially disposed within the body that defines a cavity containing a cosmetic substance and being movable in an axial direction between the second end of the body and the first end of the body, a sifter positioned adjacent to the container to retain the cosmetic substance within the cavity, and a piston assembly positioned at the second end of the body. The piston assembly is adapted to urge the container towards the first end of the body.
The above needs are at least partially met through provision of one, more than one, or any combination of the approaches for applicator systems for applying a cosmetic product described in the following detailed description, particularly when studied in conjunction with the drawings, wherein:
Skilled artisans will appreciate that elements in the figures are illustrated for simplicity and clarity and have not necessarily been drawn to scale. For example, the dimensions and/or relative positioning of some of the elements in the figures may be exaggerated relative to other elements to help to improve understanding of various examples. Also, common but well-understood elements that are useful or necessary in a commercially feasible examples are often not depicted in order to facilitate a less obstructed view of these various examples. It will further be appreciated that certain actions and/or steps may be described or depicted in a particular order of occurrence while those skilled in the art will understand that such specificity with respect to sequence is not actually required. It will also be understood that the terms and expressions used herein have the ordinary technical meaning as is accorded to such terms and expressions by persons skilled in the technical field as set forth above except where different specific meanings have otherwise been set forth herein.
Generally speaking, pursuant to these various approaches, an applicator system is provided that allows a user to precisely dispense and apply a controlled, predetermined quantity (e.g., a micro dosage) of a cosmetic, a hair care, a body care, and/or a skincare product such as, for example, a concealer formula, and allows the product to be applied and blended in an ergonomic and even manner. In some examples, the system may reduce air bubbles and/or other inconsistencies during dispensing and application, thereby providing a smooth application that reduces and/or eliminates texture marks.
Turning to the Figures, an applicator system 100 is provided for containing and dispensing a cosmetic substance 101. The applicator system 100 includes a body or cap 102, a container 110, a handle 120, an inner handle 130, and an applicator 134. The cosmetic substance 101 may be any type of cosmetic, hair care, body care, and/or skincare product that may be applied to a user. For example, the cosmetic substance 101 may be in the form of a concealer formula. Other examples are possible. In some examples where the cosmetic substance 101 is a cosmetic formula, it may include strong or otherwise aggressive chemicals and/or solvents such as, for example, volatiles.
With particular reference to
A piston assembly 106 is disposed within the body 102. The piston assembly 106 includes a resilient member 107. As illustrated in
With reference to
The container plug 114 includes a wall 115 that separates the container plug 114 into an upper portion 114a and a lower portion 114b. Further, the container plug 114 includes any number of flanges or securement members 116 that may assist in creating a sealed coupling with the container 110. While not illustrated, the securement members 116 may be configured to receive an O-ring or other seal that engages the container 110. The wall 115 cooperates with the container 110 to define a lower limit of the cavity 110c that receives the cosmetic substance 101. Further, the upper end of the resilient member 107 may abut or otherwise rest against the wall 115 of the container plug 114. In this arrangement, the resilient member 107 urges the container plug 114, and therefore the container 110, towards the first end 102a of the body 102. In other words, the container 110 is movably disposed within the interior cavity 102c of the body 102.
Turning to
In some examples, the screen 119 is constructed from a metallic, mesh-like material, and in other examples, the screen 119 may be constructed from a polymeric material. More specifically, materials such as nylon polyurethane, polyamide, polyethylene, and the like may be used depending on the desired formula of the cosmetic substance 101 and its characteristics (e.g., the affinity of the cosmetic substance 101 towards the screen 119). Further, the material of the screen 119 may be determined based on desired hydrophobic or hydrophilic properties. As a non-limiting example, cosmetic substances 101 having more cake-like consistency may benefit from a screen 119 having hydrophobic properties, whereas cosmetic substances 101 having more runny consistencies may benefit from a screen 119 having hydrophilic treatments applied thereto. Other examples are possible. In these examples, the screen 119 has a desired porosity or opening dimension that will result in generating a surface tension for the cosmetic substance 101. The screen 119 provides a resistance to the flow of the cosmetic substance 101 that is equal to or greater than the pressure of the resilient member 107. As a non-limiting example, the screen 119 may have a pore size between approximately 100 µm and approximately 950 µm, which may vary and be selected depending on the consistency of the cosmetic substance 101 being dispensed. Further, the screen 119 may have a specific arrangement of pores to facilitate proper transfer of the cosmetic substance 101 onto the applicator 134. The sifter member 118, and more specifically the screen 119, cooperates with the container 110 and the container plug to define the cavity in which the cosmetic substance 101 is disposed.
The resilient member 107 is provided with a suitable spring force for the desired cosmetic substance 101 that causes the container 110 to be urged towards the first end 102a of the body 102 and additionally towards the sifter member 118. More specifically, the spring force of the resilient member 107 is sufficient to urge the container 110 to the point that the cosmetic substance 101 contacts or otherwise abuts the screen 119, but is insufficient to urge the cosmetic substance 101 through the pores or openings of the screen 119.
A handle 120 is illustrated in
The handle 120 further includes an inner handle coupling region 124. In this example, the inner handle coupling region 124 is in the form of any number of protrusions or tabs. Other examples are possible.
Turning to
The applicator coupling mechanism 134 is in the form of a threaded arrangement surrounding a support finger 136. In the illustrated examples, the threaded arrangement is provided on an interior surface of the applicator coupling mechanism 134, but in other examples, other arrangements are possible.
The applicator 140 has a first end 140a, a second end 140b, a body 142 extending between the first and second ends 140a, 140b, an inner handle coupling mechanism 144, and a compressible member 148. The first end 140a of the applicator 140 may define a cavity 141 that receives a portion of the compressible member 148. In some examples, the compressible member 148 includes a base 149 that is constructed from a rigid or semi-rigid material that may be inserted and retained within the cavity 141.
In some examples, the compressible member 148 is constructed from a flocked soft foam having channels that allow the cosmetic substance 101 to be evenly dispersed about an external surface 148a thereof. By using a flocked foam, the external surface 148a allows for a smooth application of the cosmetic substance 101. In some examples, the channels may be laser-cut. In other words, the compressible member 148 may be micro-perforated to allow the cosmetic substance 101 to diffuse through and spread evenly at the external surface 148a of the compressible member 148. In some examples, the compressible member 148 is approximately 5 mm thick and may have a domed, slanted face having a petal shape that mimics a user’s finger with a width of approximately 17 mm. In these and other examples, a tip of the compressible member 148 may be pointed to allow for targeted application of the cosmetic substance 101. Other examples are possible.
The second end 140b of the applicator 140 may define a cavity that includes the inner handle coupling mechanism 144, which in the illustrated examples, is in the form of a threaded coupling region that allows the applicator 140 to threadably couple with the first end 130b of the inner handle 130. Upon coupling the applicator 140 with the inner handle 130 via respective coupling mechanisms 134, 144, the finger 136 is at least partially disposed within the cavity formed at the second end 140b off the applicator 140. So arranged, the finger 136 may align and support the applicator 140 when a user applies the cosmetic substance 101.
As previously noted, the applicator 140 is coupled with the inner handle 130, and the inner handle 130 is coupled with the handle 120. So arranged, and as illustrated in
As shown in
As previously noted, the resilient member 107 of the piston assembly 106 urges the container 110, and thus the cosmetic substance 101, against the sifter 118 such that the screen 119 is “charged” or “loaded” with cosmetic substance 101. Upon coupling the handle 120 with the body 102, the compressible member 148 is urged against the screen 119, which causes the cosmetic substance 101 to flow through the screen 119 and into the compressible member 148 via capillary action. In some examples, the desired amount that the compressible member 148 compresses may be controlled based on the number of threads provided by the coupling region 105 of the body 102 and the body coupling region 122 of the handle 120. This dimension may be specified to ensure the compressible member 148 compresses to a point that a desired quantity of cosmetic substance 101 is collected by the compressible member 148.
Upon uncoupling the handle 120 from the body 102, the compressible member 148 will be loaded with cosmetic substance 101. The user may then apply the cosmetic substance 101 by pressing the external surface 148a of the compressible member 148 against their skin. Upon applying the cosmetic substance 101, the user may secure the handle 120 with the body 102.
As the cosmetic substance 101 is drawn from the container 110, the quantity of cosmetic substance 101 retained therein decreases. Accordingly, the piston assembly 106 causes the container 110 to again move towards the first end 102a of the body 102 until the cosmetic substance 101 abuts the screen 119 of the sifter 118. So configured, the piston assembly 106 again automatically charges or loads the screen 119 with the cosmetic substance such that upon securing the handle 120 with the body 102, the compressible member 148 is again loaded with cosmetic product 101. So arranged, a user needn’t perform any additional steps beyond separating the handle 120 from the body 102 to apply the cosmetic substance 101.
In some examples, the sifter 118 may be “floating” and is not fixedly attached to the body 102 or the container 110, but instead, may freely move within the container 110 as the volume of cosmetic substance 101 disposed within the container decreases.
Because the applicator system 100 includes threadable or otherwise removable components, the applicator 140 may be separated from the remainder of the applicator system 100 as desired and interchanged with different applicators having desired geometries and/or other characteristics such as, for example, softer or more rigid foam materials. Further, the applicator 140 may be used alone (i.e., without using the inner handle 130 and/or the handle 120) as desired. Accordingly, the system 100 may be customizable to meet varying consumer demands. Such a removable arrangement further allows the applicator 140 to be adequately cleaned and replaced as needed, which may be advantageous in retail environments to promote hygienic practices.
Further, the applicator system 100 may be reusable. More specifically, in some examples, upon using all of the cosmetic substance 101, a user may remove the container 110 from the body 102 and return the container 110 to the manufacturer. The user may then purchase a standalone container having a seal or cap arrangement (not illustrated) on the first end 110a thereof, and subsequently place the container 110 within the body 102. Such a system may result in significant reductions in packaging waste.
So configured, the applicator 100 allows a consumer to collect, apply, and blend the product in a single swipe or motion. The applicator head geometry allows the product to diffuse to the surface for a more homogenous application, while the pointy upper region of the applicator head provides better application. The applicator 100 does not require a wiper, and as such, any number of suitable applicator head shapes may be used having soft or rigid structural characteristics. The package itself is self-dispensing as there is no actuator, push-button mechanism, or click-turn mechanism - instead, the product is ready for use once the body is removed from the container. Further, because each of the components are removably coupled with each other, the system 100 may be readily customized as desired by a user.
Those skilled in the art will recognize that a wide variety of modifications, alterations, and combinations can be made with respect to the above described embodiments without departing from the scope of the invention, and that such modifications, alterations, and combinations are to be viewed as being within the ambit of the inventive concept.
The patent claims at the end of this patent application are not intended to be construed under 35 U.S.C. § 112(f) unless traditional means-plus-function language is expressly recited, such as “means for” or “step for” language being explicitly recited in the claim(s).