The invention relates to cosmetics, and relates particularly, but not exclusively, to improvements in the application of cosmetics.
Cosmetics preparations of various types have been in use for many, many years. Accordingly, a wide range of application methods have been trialed, though primarily facial cosmetics are applied using a pencil, brush or stick, or other similar means.
This approach has been generally satisfactory. However, there are a number of problems associated with existing techniques of packaging and applying facial cosmetics. Among these problems is the difficulty some have in effectively applying cosmetics using conventional techniques. Also, some experience considerable difficulty in mastering the techniques required to successfully apply cosmetics preparations with sufficient competence to achieve the required effect.
Many individuals have particular difficulty with self application of eye-shadow. This is typically applied with mixing brushes and the challenge is to achieve even shading or colouring of each eye without smudging and to make up both eyes without noticeable differences. This aspect of distinct separated zones that need to be matched does not arise with most other areas of cosmetics application. Current methods of applying eye shadow can take up to 10 to 15 minutes for self-application, and even then, for the reasons just mentioned, the result may be less than perfect, leaving the user doubtful about feeling confident about her eye make-up through the day. This combination of the time required, the difficulty involved, and uncertain results, including worrying about smudging, colour outcome, messiness and an amateurish appearance, has led many women to avoid using eye make-up altogether.
The present applicant believes that these issues with eye cosmetics also arise, though usually to a lesser degree, with other aspects of cosmetics self-application, most notably lipstick.
Further, existing methods of packaging cosmetics can cause, in some cases, considerable inefficient wastage of the actual cosmetics preparation. As preparations are often relatively expensive to produce, this inherent wastage necessarily increases the price of the packaged forms of the cosmetics.
U.S. Pat. Nos. 4,925,667 and 4,752,496 disclose cosmetic samplers in which sample volumes are retained on a substrate, covered and accessed by removal of a tear strip. U.S. Pat. Nos. 5,690,130 and 119,704 describe cosmetic samplers in which fabric fibres or non woven material may be applied to cover an entire surface of a substrate to form an applicator surface, and in which the fibres are initially applied “by electrostatic assist”. The cosmetic is retained on this substrate by an overlaid thermoplastics film.
It is, accordingly, an object of the present invention to attempt to address the aforementioned difficulties relating to cosmetics application.
The inventive concept resides in a recognition that cosmetics preparations are advantageously provided by retaining a suitable amount of a cosmetics preparation on a suitable surface, so that the surface can be used to conveniently apply the cosmetics preparation to an appropriate part of the face.
In a first aspect, the invention provides a cosmetics applicator including a material surface and a cosmetics preparation provided on the surface. The cosmetics preparation is retained on, and may be initially attracted to, the surface at least in part with the assistance of electrostatic attraction between the surface and the cosmetics preparation. The material of the surface is preferably selected to facilitate retention of the cosmetics preparation thereon by said electrostatic attraction while allowing a major proportion of the cosmetics preparation retained thereon to be transferred to a human skin surface in a single wiping pass of the cosmetics preparation across the skin surface.
In a second aspect, the invention provides a cosmetics applicator including: a material surface, a cosmetics preparation provided on said surface, and a waxy or oily underlay between said surface and said cosmetics preparation, wherein the material of said surface is selected to facilitate retention of said cosmetics preparation and said underlay while allowing a major proportion of the cosmetics preparation retained thereon to be transferred to a human skin surface in a single wiping pass of the cosmetics preparation across the skin surface.
Advantageously, said waxy or oily underlay is cosmetic foundation. Preferably, the underlay transfers with said cosmetics preparation during said wiping pass to provide an outer protective coating therefor.
Advantageously, said material surface is provided on a planar sheet shaped to provide a first portion defining said surface and a second portion to be gripped between fingers or thumb and a finger, for executing said single wiping pass. The first portion may typically be larger than the second portion.
Preferably, said material is provided as a planar sheet. Preferably, the planar sheet of material is cut to an appropriate shape and size to allow said cosmetics applicator to be conveniently used as required.
The surface preferably has a relatively low coefficient of friction. For this purpose, the surface may be substantially formed of PTFE (poly-tetrafluoroethylene), otherwise known as Teflon®, or of a PTFE-containing composite.
Preferably, the aforesaid electrostatic attraction is achieved by the surface of the material being electrostatically charged.
The cosmetics preparation may be, eg, a granular, dust-like or powder-based substance such as, for example, as eyeshadow; or a creme, wax or other liquid-based preparation such as, for example, lipstick, or foundation.
When the cosmetics preparation is a powder, it may be applied to the surface of the material using a spray directed towards the surface, Preferably, the spray of the cosmetics preparation is efficiently directed to the material by virtue of the electrostatic attraction between the surface and the cosmetics preparation.
Preferably, the surface is shaped and sized to allow convenient use of the cosmetics preparation. Preferably, the surface includes a covered region to which the cosmetics preparation is applied, and a clear region to which the cosmetics preparation is not applied. Advantageously, the cosmetics preparation includes different colours of the preparation in distinct areas of the surface to facilitate different colour effects when the cosmetics applicator is used.
The invention further provides a method of providing a cosmetics applicator, the method including: providing a material having a surface; and applying a cosmetics preparation to at least part of the surface; wherein the cosmetics preparation is attracted to and/or retained on the surface at least in part with the assistance of electrostatic attraction between the surface and the cosmetics preparation.
The cosmetics preparation may be applied to the surface by spraying.
Preferably, the method further includes applying on said surface, a stencil to confine the cosmetics preparation to one or more predetermined areas of the surface.
The invention still further provides a method of applying a cosmetics preparation to a skin surface from a cosmetics applicator as aforedescribed, comprising transferring said cosmetics preparation from the applicator surface to the skin surface in a single wiping pass of the cosmetics preparation across the skin surface.
A cosmetics applicator 200 constructed in accordance with an embodiment of the invention will now be described with reference to the accompanying drawings. Manufacture of the cosmetics applicators is achieved using a production facility 10 as schematically represented in
The cosmetics applicator 200, illustrated on an enlarged scale with a magnification a little greater than 2, is represented in
The portion 220 may be divided at a boundary 222 into a first region 230 and a second region 240, which are respectively overlaid with different colours and/or types of cosmetics preparation. The first and second regions 230, 240 of the portion 220 are positioned so that the two respective colours of these regions 230, 240 are similarly represented on the skin of the eyelid. While a simple arrangement of only two regions 230, 240 is depicted in
The “teardrop” shape of the surface 210 shown in
The transfer efficiency of this wiping action is facilitated by the generally curved edges of applicator 200, by the elongated shape of the applicator, and by portion 220 being of a length and width to generally match an eyelid.
The surface 210 is of a PTFE-containing material having a low coefficient of friction, selected to facilitate retention of the cosmetics preparation and underlay thereon, preferably at least in part by electrostatic attraction, while allowing the major proportion of the cosmetics preparation retained thereon to be transferred to a human skin surface in a single wiping pass or swipe of the cosmetics preparation across the skin surface. The cosmetics preparation thus readily wipes off the surface 210 and onto the skin. The material should thus preferably be suitable both for being electrostatically charged at its surface and for having friction properties such that the cosmetics preparation, and preferably also the underlay, easily transfer by wiping action to the skin.
A suitable PTFE-containing material for applicators 200 is FL100 Virgin PTFE supplied by Dotmar EPP, preferably of thickness 4 to 5 thousandths of an inch (about 0.100 to 0.125 mm), having a static co-efficient of friction at 0.23 MPa of 0.04 and a dynamic co-efficient of friction at 0.23 MPa, 0.75 m/sec of 0.05. The specific gravity is 2.16, tensile strength 30.0 MPa, flexural modulus 690 MPa, and compressive strength under 5% strain 12.1. Shore D Hardness is in the range 50-65.
Other PTFE-containing materials that may be suitable include PTFE-impregnated or coated paper or fibre, eg. glass fibre, mesh, or PTFE-coated plastics substrates.
Electrostatic attraction between the cosmetics preparation and the surface 210, at least partly assists in retaining the cosmetics preparation to the surface 210 prior to it being wiped off. The waxy or oily underlay further assists in this retention. There is typically no outer protection film but such may be included if necessary for additional protection of the cosmetic.
The principal dimensions of applicator 200 are, with reference to
The surface 210 is cut from a sheet of the PTFE-containing material, and electrostatic attraction between the surface 210 and the cosmetics preparation assists in attracting the preparation to, and retaining it on, the portion 220 of the surface 210.
The cosmetics applicator 200 can be manufactured by means of the production facility illustrated schematically in
The robotic applicator 60 is used to apply the waxy or oily underlay and then the cosmetics preparation onto each sheet 50. The cosmetics preparation, a coloured powder material, is supplied to a mixing vat 70 for colour tanks 75, and mixed with air from an air tank 80. Various colours of aerated powder of the cosmetics preparation are supplied to the robotic applicator 60 though powder lines 100. The air nozzles 110 deliver the actual aerated power to the stencil covered sheets 50 after application of the waxy or oily underlay. A computer control programme in controller 55 is used to control the actions of the robotic applicator 60 to ensure appropriate delivery of the aerated powder to the sheets 50.
After the cosmetics preparation has been applied to the stencil-covered sheets 50, the stencil can be removed, and a guillotine press used to stamp out individual applicators 200 according to the pattern shown in
In an alternative approach, instead of or in addition to application of the waxy or oily underlay, the surface of sheet 20 is prepared by being wiped with a suitable alcohol.
It is found that the use of a pair of applicators 200 to apply eyeshadow achieves very good balance between the two sides of the face and eyes, giving the user a high level of confidence in her appearance. The physical size of the required package for a set of the applicators is relatively compact and convenient. The applicators facilitate self-applications of eye makeup within seconds rather than the 10 or 15 minutes presently required.
Number | Date | Country | Kind |
---|---|---|---|
PQ 8580 | Jul 2000 | AU | national |
PR 2695 | Jan 2001 | AU | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/AU01/00807 | 7/5/2001 | WO | 00 | 1/3/2003 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO02/01982 | 1/10/2002 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
3256980 | Gordon | Jun 1966 | A |
4654235 | Effenberger et al. | Mar 1987 | A |
4725495 | Garbe et al. | Feb 1988 | A |
4747782 | Campbell, Jr. et al. | May 1988 | A |
4925667 | Fellows et al. | May 1990 | A |
5137040 | Iosilevich et al. | Aug 1992 | A |
5301697 | Gueret et al. | Apr 1994 | A |
5462798 | Gueret | Oct 1995 | A |
6214362 | Page | Apr 2001 | B1 |
6235270 | Ishii et al. | May 2001 | B1 |
6283664 | Gueret | Sep 2001 | B1 |
6530379 | Iosilevich | Mar 2003 | B2 |
Number | Date | Country |
---|---|---|
0 832 577 | Apr 1988 | EP |
63105189 | May 1988 | JP |
09295917 | Nov 1997 | JP |
WO 0000059 | Jun 2000 | WO |
Number | Date | Country | |
---|---|---|---|
20040037858 A1 | Feb 2004 | US |
Number | Date | Country | |
---|---|---|---|
60251176 | Dec 2000 | US |