Cosmetic sampler with applicator backing

Information

  • Patent Grant
  • 6006916
  • Patent Number
    6,006,916
  • Date Filed
    Friday, June 12, 1998
    26 years ago
  • Date Issued
    Tuesday, December 28, 1999
    25 years ago
Abstract
A cosmetic sampler package comprising a slurry of cosmetic and solvent which is printed onto a transparent or translucent film overlay. The film overlay includes opaque portions printed in the negative image of the desired design on the surface opposite that of the cosmetic, so as to form a display window for viewing the cosmetic sample. A perimeter adhesive may be printed on the film overlay around the sample and a protective backing is sealed to the film. The entire surface of the protective backing which faces the cosmetic sample is covered with a texturized layer of flocked fabric fibers so that the backing may be used as an applicator for the cosmetic sample.
Description

BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a cosmetic sampler and, more specifically, to a disposable unit dose or single application package for providing a cosmetic sample.
2. Description of the Related Art
Cosmetics have typically been available for sampling in department stores in the very containers in which the product is sold, or in smaller versions of the same container. This method generally works well with fragrances, where the product is applied by spraying onto the skin of the consumer such that the product reservoir remains untouched. Such method is less effective in marketing cosmetics, however, because many consumers feel uneasy about sampling a product from a container from which others have previously sampled due to the fear of contracting disease or infection.
The prior art has attempted to provide a more inexpensive and convenient means of marketing cosmetics by hand-outs or by mail, e.g., as inserts in department store bills or magazines. One such sampling means is a cosmetic "strip", which consists merely of make-up samples deposited on a substrate covered by a paper mask, as disclosed in U.S. Pat. No. 4,752,496 to Fellows et al. Such "strips" do not allow for the presentation of the cosmetic sample in a design pattern, however, nor do they allow for the simultaneous presentation of a number of colors in a single design.
In another example, U.S. Pat. No. 4,884,719 to Levine et al. describes a cosmetic sampler wherein the product is deposited on a substrate and is covered with a transparent cover sheet. While this invention allows the consumer to fully view the color of the product without any initial manipulation of the package, the sample is subject to offset or smearing between the two layers, thus ruining any design pattern of the product sample.
An attempt has been made to address the problem of offset in U.S. Pat. No. 4,824,143 to Grainger. In this sampler package, a transparent bubble insert is disposed in a window over the product sample. The package is formed with multiple panels and window cutouts surrounding the bubble through which the sample is viewed. This invention, however, is complicated in design and is cumbersome to use for the consumer. Furthermore, the sampler would not be suitable for distribution in mail inserts or magazines due to its relatively bulky dimensions.
If the product to be sampled requires an applicator, such as a cosmetic powder or blush, the consumer often has to resort to using her fingers to apply the sample, as with the sampler disclosed in U.S. Pat. No. 5,072,831 to Parrotta et al. The drawback, of course, is that the application process is messy; moreover, it is difficult to achieve an even coverage of the product using one's fingers.
The problems described above arise in the distribution of samples of creams, lipsticks, fragrances, pharmaceuticals, lotions, and other types of high viscosity, waxy materials.
SUMMARY OF THE INVENTION
The present invention overcomes the drawbacks of the prior art discussed above by providing a cosmetic sampler package comprising a slurry of cosmetic and solvent which is printed onto a transparent or translucent film overlay. The film overlay includes opaque portions printed in the negative image of the desired pattern or design on the surface opposite that of the cosmetic, so as to form a display window for the sample. A protective backing is then sealed to the film, covering the sample. The protective backing is additionally provided with an applicator material on the surface of the protective backing facing the sample to serve as a built-in applicator.
Individual samplers of the present invention contain enough product for one "unit dose" application of the cosmetic, and can be used to sample creams, lipsticks, fragrances, pharmaceuticals, lotions, and other high viscosity, waxy materials.
Other features and advantages of the present invention will become apparent from the following description of the invention which refers to the accompanying drawings.





BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 shows a side cut-away view of an embodiment of the present invention.
FIG. 2 shows an exploded top view of an embodiment of the present invention.
FIG. 3 shows a top-side view of another embodiment of the present invention.
FIG. 4 shows the bottom view of the film 4 shown in FIG. 3.





DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT
FIG. 1 depicts an exemplary embodiment of the present invention which comprises a transparent or translucent cover film 1, onto which a sample of cosmetic product 2 is printed on the bottom surface B in any desired pattern or design 10, as shown in FIG. 3. A protective backing 4 is sealed or laminated to film 1 around the cosmetic 2, covering the same to protect the sample until ready for use by the consumer. Protective backing 4 is also designed to function as the applicator for the cosmetic sample and includes an applicator material 6 covering the surface of backing substrate 5. Protective backing 4 is sealed to the film 1 with the applicator material 6 facing the cosmetic sample 2.
Film 1 may be any type of flexible plastic sheet or thermoformable film having a thickness of 0.5-12.0 mils, such as amorphous polyester, co-polyester, PVC, PET, polycarbonate, high density polyethylene, polypropylene, high impact polystyrene, or derivatives thereof, but is preferably formed of a treated polyester resin film such as "MYLAR".TM.. The top surface A of cover film 1 may be printed with at least one window 8, through which the color of sample 2 may be viewed. Window(s) 8 may be of any shape, pattern, or design 10, such as a pair of windows in the shape of a pair of lips, as shown in FIG. 3. In the example shown in FIG. 3, cover film 1 is printed with the negative image of a pair of lips, so that lip-shaped windows 8 remain transparent while the rest of cover film 1 is blocked with print. In this manner, several shades or colors of the product may be displayed in one sampler with each color occupying one window. Additionally, cover film 1 may contain copy print on both the opaque and transparent sections, such as for labeling the product or providing directions for application. Alternatively, cover film 1 may be translucent with no windows and with copy print on the top surface A.
Product sample 2 is printed onto the bottom surface B of the film at a location opposite each window 8 in an area at least slightly larger than the corresponding window, as shown in FIG. 4. This arrangement allows for a sharp presentation of the colors and designs, since the edges of each design or pattern section are hidden behind the window borders. Thus, any irregularities in the edges of printed cosmetic 2 or any offset of the cosmetic is not seen from the topside A of cover film 1. Preferably, the cosmetic is screen printed onto film 1, although other known printing methods such as flexography or lithography may be used. In a further embodiment, film 1 may be embossed to form a well in the shape of the desired pattern, and the cosmetic product is deposited therein.
In the preferred process for making the invention where the cosmetic sample to be distributed is a powder-based product such as a pressed compact, eye shadow or blush, cover film 1 is run through a screen printing press and printed with as many colors of make-up 2 as desired and allowed by the press configuration. These deposits of make-up may be in virtually any shape and size compatible with the press and may be in proximity and registered with each other. In one example process, a moderately coarse mesh (125 threads per inch) from Majestech and a sharp 80-85 durometer squeegee are used to deposit the make-up onto the film. The mesh has an unusually fine thread for its count resulting in a smooth screen with a high percentage of open area.
The make-up slurry is formed by wetting the make-up with a solvent compatible with the chemistry of the powder. For instance, a pearlescent eye shadow with inorganic pigments that wet well can be used with an evaporating solvent such as ethyl alcohol or isopropyl alcohol. If a coarse screen and a poorly lubricated powder are used together, additional wetting agents or lubricants such as glycerine or silicone oil may be added to the slurry. The viscosity of the slurry and the amount of solvent added must be tailored to the individual powder, as is the choice and amount of lubricant or wetting agent, although the amount of lubricant should preferably be kept below 5%. Following screen printing of the slurry, the solvent evaporates to leave a sample of make-up 2 on film 1.
Substrate 5 of protective backing 4 may be comprised of board, paper, or plastic, and may be coated with a polymer film such as polypropylene, polyethylene, Mylar.TM., high impact polystyrene, or derivatives thereof. The protective backing 4 additionally includes an applicator material 6 covering the surface of substrate 5 which faces cosmetic sample 2. Applicator material 6 may be applied in an embossed/debossed pattern 9, as shown in FIG. 2, onto backing substrate 5. It has been discovered that by applying the applicator material in a pattern, adherence of the applicator material to the backing substrate is improved so that the applicator material does not pull away from the substrate upon separation of the backing and the film during use. Furthermore, the patterned applicator provides for more even coverage of the cosmetic sample upon application.
In one embodiment, an adhesive 3 is printed on the backing substrate. Fibers such as cotton, nylon, acrylic, or combinations thereof, are introduced into a chamber and, by electrostatic assist, the fibers are flocked on the substrate. Using flocking, the fabric fibers can be applied in a chosen register or pattern to form the applicator. The applicator may then be die cut to the desired shape while still attached to the unit. Optionally, the applicator backing may additionally be embossed in the die cut shape. In other embodiments, the applicator material may comprise a woven fiber or a reticulated or nonreticulated foam, and may be attached to the backing substrate by lamination.
Next, perimeter adhesive 3 is printed on cover film 1, and applicator backing 4 is then laminated to the printed film 1, with the applicator side 6 facing cosmetic sample 2. Adhesive 3 is preferably, but not necessarily, pressure sensitive. Other forms of adhesives which are consistent with the present invention include anaerobic, self crosslinking, U.V. curable, or heat curable adhesives, or the adhesive material can simply be dried by evaporation. Alternatively, applicator backing 4 may be sealed to cover film 1 using other methods such as hermetic sealing with heat or fusion or sonic sealing, and may be accomplished either with or without the addition of an adhesive as detailed above.
The use of screen printing techniques according to the preferred embodiment of the present invention for preparing make-up samples is not limited to samples of eyeshadows or other inorganically pigmented powders. Organically pigmented powders may also be sampled by adjusting the solvent system and by, if necessary, reducing the pigment loading to compensate for the tendency of some organic pigments to develop in a liquid medium. Such a technique would also allow the sampling of blush, for example. The present invention is additionally applicable to sampling non-liquid but oily products, such as lipstick, sunscreen stick, stick deodorant, or any oily, non-liquid pharmaceutical product.
Where the cosmetic sample is a wax-based product such as lipstick, an effective method of screen printing the sample onto cover film 1 is described below. Although this process is directed to the screen printing of lipstick, the method is similarly applicable to any type of wax-based product.
First, the lipstick bulk is heated above its melting point of approximately 195.degree. to 205.degree. F. to ensure that the highest melting point waxes are dispersed, and that the lipstick is uniform. The formulation is then augmented by the addition of molten waxes and other additives which are mixed until uniform and poured while still in a molten state into a stainless steel jacketed kettle or a suitably sized plastic container. The mixture is then allowed to cool to return to a solid state. The purpose of introducing additional waxes to the formula is to prevent the lipstick from melting or bleeding oil when exposed to subsequent environmental conditions.
After cooling, the mixture forms a hard waxy product which is not printable. Thus, the next step is to change the material to a paste-like consistency using a conventionally recognized method of grinding or shearing, such as by a rollermill or planetary mixer.
The paste-like processed bulk is added to the screen press at room temperature and printed in a pattern onto the bottom surface of a cover film 1 as described above.
Since the material in the form of a printed paste is not yet a lipstick, the material is then heated to approximately 195.degree. to 200.degree. F. to re-melt, then chilled to form a lipstick. The resulting physical appearance of the lipstick print is shiny, glossy, and liquefied.
Optionally, to ensure that the lipstick will maintain its integrity when exposed to environmental conditions of heat or pressure, a protective overcoat (not shown) may be applied over the printed lipstick. As disclosed in U.S. Pat. No. 5,562,112, this overcoat is printed in the exact pattern as the printed lipstick and serves not only to maintain the integrity of the lipstick, but also to prevent product transfer to applicator backing 4. The overcoat can be selected from a series of polymers which are printed from a solvent system, allowing rapid drying and forming of a uniform film over the lipstick surface. The overcoat material is dried to a uniform film by use of air knives or moving room temperature air. Polymer systems, based upon cellulosics, polyvinyl pyrollidone, pyrollidone ester blends, acrylics, nitrocellulose, have been shown to have certain degrees of effectiveness; however, the material of choice for the overcoat is "NO'TOX".TM. from Colorcon Incorporated, Philadelphia, Pa.
Although the present invention has been described in relation to particular embodiments thereof, many other variations and modifications and other uses will become apparent to those skilled in the art. It is preferred, therefore, that the present invention be limited not by the specific disclosure herein, but only by the appended claims.
Claims
  • 1. A unit-dose cosmetic sampler comprising:
  • a cover film;
  • a unit dose of cosmetic preparation printed in a pattern on said cover film, said cosmetic preparation containing a cosmetic product; and
  • a protective backing sealed to said cover film, wherein the protective backing comprises an applicator material provided on a surface of a backing substrate, the protective backing being sealed to the film with the applicator material facing the cosmetic preparation.
  • 2. The cosmetic sampler recited in claim 1, wherein the applicator material comprises a material selected from the group consisting of reticulated foam, non-reticulated foam, cotton, nylon, acrylic, and combinations thereof.
  • 3. The cosmetic sampler recited in claim 1, wherein the applicator material is applied in a continuous layer across the entire surface of the backing substrate facing the cosmetic preparation.
  • 4. The cosmetic sampler recited in claim 1, wherein the backing substrate comprises a material selected from the group consisting of board, paper, and plastic.
  • 5. The cosmetic sampler recited in claim 4, wherein the backing substrate is coated with a polymer film selected from the group consisting of polyester, co-polyester, polypropylene, polyethylene, high impact polystyrene, PET, PVC, and derivatives thereof.
  • 6. The cosmetic sampler recited in claim 4, wherein the applicator material is applied in an embossed and/or debossed pattern onto the backing substrate.
  • 7. The cosmetic sampler recited in claim 1, further comprising a protective polymeric overcoat printed over the printed cosmetic preparation.
  • 8. The cosmetic sampler recited in claim 1, wherein the cover film is transparent.
  • 9. The cosmetic sampler recited in claim 8, wherein the cover film is pre-printed with opaque copy to define at least one transparent window corresponding to the pattern of the printed cosmetic preparation such that the printed cosmetic preparation can be viewed through said at least one transparent window.
  • 10. The cosmetic sampler recited in claim 9, wherein the cosmetic preparation comprises at least one product color.
  • 11. The cosmetic sampler recited in claim 9, wherein the cosmetic preparation comprises multiple product colors.
  • 12. The cosmetic sampler recited in claim 11, wherein
  • the printed pattern comprises more than one distinct section, wherein each of said multiple product colors of said cosmetic preparation is printed to form at least one section of the pattern; and
  • said at least one window comprises a separate window for each section of the pattern, each separate window corresponding in shape to a shape of a different section of the printed pattern.
  • 13. The cosmetic sampler recited in claim 12, wherein said printed pattern sections are in proximity and registered with each other.
  • 14. The cosmetic sampler recited in claim 1, wherein the cover film is translucent.
  • 15. The cosmetic sampler recited in claim 1, wherein the cover film comprises a material selected from the group consisting of a flexible plastic sheet and a thermoformable film, and wherein the thermoformable film is selected from the group consisting of amorphous polyester, co-polyester, polycarbonate, PVC, PET, high density polyethylene, polypropylene, high impact polystyrene, and derivatives thereof.
  • 16. The cosmetic sampler recited in claim 14, wherein the cover film is embossed to form a well in a shape of said pattern and said cosmetic preparation is printed in said well.
  • 17. The cosmetic sampler recited in claim 1 wherein the cover film has a thickness between about 0.5-12.0 mils.
  • 18. A method for making a cosmetic sampler having an applicator backing comprising:
  • (a) forming a preparation of a cosmetic product;
  • (b) printing said cosmetic preparation onto a plastic film in a well-defined pattern having at least one distinct section;
  • (c) providing a protective backing having a backing substrate;
  • (d) applying an applicator material to a surface of the backing substrate; and
  • (e) sealing said protective backing to said film.
  • 19. The method of making a cosmetic sampler recited in claim 18, wherein the applicator material is applied in a continuous layer across the entire surface of the backing substrate facing the cosmetic preparation.
  • 20. The method of making a cosmetic sampler recited in claim 19, wherein the applicator material is applied in an embossed and/or debossed pattern onto the backing substrate.
  • 21. The method of making a cosmetic sampler recited in claim 19, further comprising the step of die cutting the protective backing to a desired shape after applying the applicator material to the backing substrate.
  • 22. The method of making a cosmetic sampler recited in claim 19, wherein the applicator material is formed from the group consisting of a material selected from a woven fabric, a non-woven fabric, a reticulated foam, and a nonreticulated foam.
  • 23. The method of making a cosmetic sampler recited in claim 22, wherein the step of applying the applicator material to the backing substrate includes printing an adhesive onto the substrate.
  • 24. The method of making a cosmetic sampler recited in claim 23, wherein the step of applying the applicator material to the backing substrate further includes laminating the applicator material to the backing substrate.
  • 25. The method of making a cosmetic sampler recited in claim 22, wherein the woven fabric and the non-woven fabric comprises fabric fibers selected from the group consisting of cotton, nylon, acrylic, and combinations thereof.
  • 26. The method of making a cosmetic sampler recited in claim 25, wherein the step of applying the applicator material to the backing substrate includes printing an adhesive onto the substrate.
  • 27. The method of making a cosmetic sampler recited in claim 26, wherein the step of applying the applicator material to the backing substrate further includes flocking the fabric fibers onto the backing substrate via electrostatic assist.
  • 28. The method of making a cosmetic sampler recited in claim 18, wherein said step of printing said cosmetic preparation is a process selected from the group consisting of screen printing, lithography, and flexography.
  • 29. The method of making a cosmetic sampler recited in claim 28, wherein said printing step is performed using screen printing.
  • 30. The method of making a cosmetic sampler recited in claim 18, wherein the cover film is embossed to form a well in a shape of said pattern and said cosmetic preparation is printed in said well.
  • 31. The method of making a cosmetic sampler recited in claim 18, wherein the cosmetic product is a pigmented powder, and the step of forming the cosmetic preparation comprises forming a slurry of the powder and solvent.
  • 32. The method of making a cosmetic sampler recited in claim 18, wherein the cosmetic product is a wax-based product, and the step of forming the cosmetic preparation comprises processing a paste of the wax-based product which has been augmented with molten waxes.
  • 33. The method of making a cosmetic sampler recited in claim 32, further comprising the step of printing a protective polymeric overcoat over the printed cosmetic preparation.
  • 34. The method of making a cosmetic sampler recited in claim 18, further comprising the step of pre-printing the cover film with opaque copy to define at least one transparent window corresponding to the pattern of the printed cosmetic preparation such that the printers cosmetic preparation can be viewed through said at least one transparent window.
  • 35. The method of making a cosmetic sampler recited in claim 18, further comprising the step of applying a perimeter adhesive to said film prior to sealing said protective backing to said film.
  • 36. The method of making a cosmetic sampler recited in claim 18, wherein said sealing step is performed using a process selected from the group consisting of laminating, hermetic sealing, heat sealing, fusion sealing, and sonic sealing.
US Referenced Citations (73)
Number Name Date Kind
1743512 Aisen Jan 1930
1744532 Ean Jan 1930
1836833 Ames Dec 1931
1885076 Bustamante Oct 1932
2061139 Cohen Nov 1936
2088076 Winslow Jul 1937
2133914 Burke Oct 1938
2175133 Singleton Oct 1939
2185386 Valentine Jan 1940
2214510 Robinson Sep 1940
2234657 Smaldone Mar 1941
2378935 Kraft Jun 1945
2561400 Morrell Jul 1951
2735435 Feinstein Feb 1956
2775249 Morrell Dec 1956
2998812 Hurdel Sep 1961
3157912 Lisczawka Nov 1964
3568684 Reece Mar 1971
3779848 Maierson Dec 1973
3788917 Linda Jan 1974
3811987 Wilkinson et al. May 1974
3860016 Mackiernan Jan 1975
3888689 Maekawa et al. Jun 1975
4224092 Thompson Sep 1980
4372098 Mason Feb 1983
4487801 Turnbull et al. Dec 1984
4493869 Sweeny et al. Jan 1985
4611611 Beal, Jr. Sep 1986
4661388 Charbonneau Apr 1987
4725495 Garbe et al. Feb 1988
4735827 Frank et al. Apr 1988
4747782 Campbell, Jr. May 1988
4751934 Moir et al. Jun 1988
4752496 Fellows et al. Jun 1988
4755433 Patel et al. Jul 1988
4774133 Doree et al. Sep 1988
4805773 Sabongi Feb 1989
4824143 Grainger Apr 1989
4848378 Moir et al. Jul 1989
4876136 Chang et al. Oct 1989
4884680 Israel et al. Dec 1989
4884719 Levine et al. Dec 1989
4889755 Charbonneau Dec 1989
4890872 Parrotta et al. Jan 1990
4925667 Fellows et al. May 1990
4940584 Tararuj et al. Jul 1990
4952400 Tararuj et al. Aug 1990
4988557 Charbonneau Jan 1991
4995408 Wallschlaeger Feb 1991
4996044 Mercado et al. Feb 1991
5000202 Stepan Mar 1991
5031647 Seidler Jul 1991
5037139 Schoenleber et al. Aug 1991
5072831 Parrotta et al. Dec 1991
5105941 Dolan et al. Apr 1992
5160022 Mennella Nov 1992
5161688 Muchin Nov 1992
5301697 Gueret Apr 1994
5348031 Cloud Sep 1994
5391420 Bootman et al. Feb 1995
5439172 Comyn et al. Aug 1995
5518790 Huber et al. May 1996
5533622 Stockley, III et al. Jul 1996
5535885 Daniel et al. Jul 1996
5562112 Gunderman Oct 1996
5566693 Gunderman Oct 1996
5568866 Grosskopf et al. Oct 1996
5622263 Greenland Apr 1997
5645161 Whitaker et al. Jul 1997
5647941 Gunderman Jul 1997
5690130 Gunderman Nov 1997
5718098 Grosskopf et al. Feb 1998
5799675 Gunderman Sep 1998
Foreign Referenced Citations (25)
Number Date Country
0197184 Jul 1985 EPX
0197206 Dec 1985 EPX
0263327 Sep 1987 EPX
0252001 Jan 1988 EPX
2589271 Oct 1986 FRX
2601865 Jan 1988 FRX
13537 Aug 1938 JPX
53-116906 Oct 1978 JPX
56-112973 Jan 1980 JPX
56-165661 May 1980 JPX
57-103862 Dec 1980 JPX
57-184967 May 1981 JPX
56-108703 Aug 1981 JPX
57-37560 Mar 1982 JPX
58-162677 Sep 1983 JPX
58-163420 Sep 1983 JPX
59-22473 Feb 1984 JPX
59-82414 Jun 1984 JPX
60-67408 Apr 1985 JPX
60-129206 Aug 1985 JPX
60-178356 Sep 1985 JPX
60-149314 Oct 1985 JPX
61-56602 Mar 1986 JPX
1329309 Sep 1973 GBX
WO8807825 Oct 1988 WOX
Non-Patent Literature Citations (6)
Entry
"Practical Technique for Screen Printing".
"Photomechanical Process Silk Screening".
"New Screen Printing Technology Complete Collection", vol. 4, Some Applied Theories of Screen Printing, Seri Graph Co. (Feb. 25, 1986).
Kirk-Othmer, Encyclopedia of Chemical Technology, vol. 6, 2nd Ed., Sep. 1965, pp. 363-366.
E. Noteboom, "Screen Printing: Where Did It All Begin?", Screenprinting (1992), pp. 52-56, 103, 122.
A Series of Well-Known and Widely Used Technqiues (Cosmetic Items and Containers), Japanese Patent Office Gazette.