Body spray composition with pearl-like oil phase droplets in container

Abstract

A body spray assembly includes a container which has an upright position and that is at least partly transparent. A liquid composition in the container is sprayed from the container with a manual spray pump. The composition has an oil phase, an aqueous phase and pigment in the form of particles which are effective to form the oil phase into stable droplets that remain in a droplet layer in the aqueous phase after the composition is allowed to stand for a period of time. The droplets are at least partly visible in the container. The spray pump is free of any plastic parts that extend into the droplet layer when the container is in its upright position to avoid rupturing the stable droplets by contact with these parts. The oil phase contains substantially pure fragrance which is free of solubilizer so that the formation of pearls can occur in the container and does not cloud the aqueous phase.

Description

FIELD AND BACKGROUND OF THE INVENTION

The present invention relates in general to body sprays and in particular, to a new and useful body spray assembly which comprises a container with a liquid composition having an oil phase in the form of stable droplets which look like pearls or the like.

U.S. Pat. No. 3,920,883, entitled LIQUID COSMETIC COMPOSITION OF A TWO-PHASE TYPE, assigned to Shiseido Co., Ltd., discloses a cosmetic composition containing an oil phase in the form of a dispersion of spheres or droplets, in a homogeneous mixture of organic liquid and water. This patent (the Shisheido patent), which is incorporated here by reference, utilizes finely divided solid particles in the liquid composition to enhance the appearance of the composition in which the oil spheres are transparent, translucent or pearl-like in appearance.

U.S. Pat. No. 4,767,741, entitled TWO-PHASE LIQUID COSMETIC AND METHOD OF PREPARING SAME, which is also incorporated here by reference, discloses a two-phase liquid composition which also contains a dispersion of oil phase spheres or droplets in an organic liquid and water phase to produce a cosmetic having an aesthetically desirable appearance.

This patent also utilizes finely divided solid particles. These particles are the result of precipitated salts in the composition.

A moisturizing composition containing “pearls” of oil droplets is also available from Yves Rosher and is known as BODY THERAPY WITH SAGE & MINT. This product is provided in a glass bottle having a stopper and is shaken before using to disperse the oil droplets into the rest of the liquid composition. The Shiseido patent also advocates the shaking of the cosmetic composition before use for dispersing the oil spheres or droplets into the organic liquid and water phase of the composition.

SUMMARY OF THE INVENTION

An object of the present invention is to provide a body spray which includes fragrance and a moisturizer or other active ingredients, in an attractive assembly comprising a partially or completely transparent container having a spray mechanism for spraying the contents of the container, the contents of the container comprising a composition with a water phase and an oil phase, the oil phase being a dispersion of stable oil droplets or spheres which have a pearl-like appearance and lie in a layer in the composition. Although the preferred embodiment of the invention utilizes oil droplets or spheres which are heavier than the liquid phase and thus form the layer at the bottom of the container, the invention includes compositions which have oil phase droplets that are lighter than the water phase and, thus exists in a layer at the top of the composition.

The composition includes a dispersion of finely divided particles in the form of one or more pigments that the inventors believe contribute to the formation of the stable droplets and which give the droplets a translucent or transparent pearl-like appearance.

Surprisingly, the inventors have found that if certain plastics come into contact with the droplet layer, the droplets are broken, deformed or cling to the plastic parts in sheets or other adverse effects occur. This substantially deteriorates the attractive pearl-like appearance of the droplets and the general appearance of the assembly.

Since an object of the present invention is to provide a composition which can be sprayed, another feature of the invention is to utilize a spray mechanism, which is preferably manual but which may also comprise pressurized aerosol technology, but which has no parts made of the type of plastic which deforms or damages the droplets, near the droplet layer.

Another surprising feature of the invention is that fragrance, which is free of solubilizers must be utilized to form and maintain the pearls, while at the same time avoiding clouding of the aqueous phase. In this way, a substantially crystal clear aqueous phase and a distinct pearl-like droplet layer is produced. Fragrance in the composition will reside in the oil phase due to its lipophilic nature. Solubilizers in the fragrance will impart a hydrophilic nature to fragrance which will adversely effect formation of pearls.

A reservoir pump is used according to the present invention since it does not include a dip tube which extends into the composition. This, both, maintains the stable dispersion of oil phase droplets and produces an attractive container with substantially clear color or colorless liquid above the droplet layer and no unsightly dip tube.

Accordingly, a further object of the invention is to provide a body spray assembly comprising a container which has an upright position and that is at least partly transparent, a liquid composition in the container and spray means connected to the container for spraying the liquid composition from the container. The composition includes an oil phase, an aqueous phase and pigment in the form of particles which are effective to form the oil phase into stable droplets that remain in a droplet layer in the aqueous phase after the composition is allowed to stand for a period of time, the droplets being at least partly visible in the container. The spray means is free of any plastic parts that extend into the droplet layer when the container is in its upright position to avoid rupturing the stable droplets by contact with any plastic parts.

A further object of the present invention is to provide a body spray assembly comprising a container which has an upright position and that is at least partly transparent, a liquid composition in the container and spray means connected to the container for spraying the liquid composition from the container, and the composition including an oil phase, an aqueous phase and pigment in the form of particles which are effective to form the oil phase into stable droplets that remain in a droplet layer in the aqueous phase after the composition is allowed to stand for a period of time, droplets being at least partly visible in the container, the oil phase containing substantially pure fragrance which is free of solubilizer so that the formation of pearls occur in the container and does not cloud the aqueous phase.

The various features of novelty which characterize the invention are pointed out with particularity in the claims annexed to and forming a part of this disclosure. For a better understanding of the invention, its operating advantages and specific objects attained by its uses, reference is made to the accompanying drawings and descriptive matter in which a preferred embodiment of the invention is illustrated.

BRIEF DESCRIPTION OF THE DRAWINGS

In the drawings:

FIG. 1 is a side elevational view of a body spray assembly according to the present invention with an aqueous phase and an oil phase, the oil phase being in the form of stable droplets in a droplet layer at the bottom of the aqueous phase;

FIG. 2 is a view similar to FIG. 1 , after the composition has been shaken up to disperse the oil-phase into the aqueous phase and, at the same, supply a charge of mixed composition into a reservoir pump used in accordance with the present invention for spraying the composition from the container;

FIG. 3 is a view similar to FIG. 1 , of another embodiment of the invention which utilizes a short dip tube in a manual pump for discharging the composition; and

FIG. 4 is a view similar to FIG. 1 , showing the results of utilizing a dip tube of conventional length which extends into the oil droplet layer but deforms or destroys the stable droplets in this layer.

DESCRIPTION OF THE PREFERRED EMBODIMENT

Referring to the drawings in particular, the invention embodied in FIG. 1 comprises a body spray assembly generally designated 10 comprising a glass container 12 which has an upright position, shown in FIG. 1 , and that is at least partly transparent but, in the preferred embodiment of the invention, is completely transparent, colorless and made of glass.

Container 12 comprises a liquid composition 14 and a manual spray pump mechanism generally designated 18 . Spray mechanism 18 is advantageously a reservoir pump having a push button or actuator 20 with a spray nozzle 22 for emitting a spray of liquid composition, a conduit neck 24 which extends down into a pump section 26 and a cup which is upwardly open and forms the reservoir of the reservoir pump. Reservoir pump 18 is commercially available from Valois of America in Greenwich, Conn. The pump has no dip tube, but instead sprays liquid that has been brought up into the upwardly open reservoir cup 28 by shaking or inverting the container 12 . The reservoir cup forms supply means for the manual spray pump mechanism. This shaking operation is also necessary in accordance with the present invention to disperse the oil phase into the aqueous phase so an emulsion of both phases is sprayed from nozzle 22 when actuator 20 is pushed.

If the assembly is allowed to remain in the upright position of FIG. 1 , the oil phase immediately begins to form visible droplets into a droplet layer 30 of stable spheres or droplets 32 which have a relatively narrow and well defined range of diameters (about 1 to 10 mm) and have the appearance of small white translucent pearls due to the use of a particular pigment combination. This appearance is enhanced by the fact that the outer surfaces of the outer spheres or droplets in the layers appear to press against the inner surface of the glass container, producing a slight flattening or dimpled surface which catches light differently from the remainder of the sphere, enhancing the shimmering, pearl-like appearance. Above layer 30 , the aqueous phase of the composition 14 eventually becomes substantially clear and has a pale color or is colorless, producing a very attractive assembly of high consumer interest.

FIG. 2 illustrates the assembly 10 after it has been vigorously shaken to disperse the droplets of oil into the aqueous phase to form the composition 14 into an emulsion. By this shaking, a level of composition at 34 is displaced into the reservoir 28 ready to be sprayed from nozzle 22 in the form of a spray pattern 36 when actuator 20 is depressed. Spraying can continue until the liquid in reservoir 28 is depleted. Reservoir 28 is large enough to produce enough spray 36 for a reasonable application. If a user wishes more composition, the container 30 is simply shaken again or inverted to displace additional composition into the reservoir 28 .

To avoid evaporation of volatile components and to avoid spillage, spray mechanism 18 is permanently fixed to the enlarged neck 40 of glass bottle 12 by use of a metal cap 42 having a lower rim crimped around a small diameter portion of neck 40 . Evaporation of the volatile components would adversely effect the balance of the formulation, thus distorting the visual appearance of the pearls.

One feature of reservoir pump 18 is the inclusion of outwardly inclined spaced apart fins 44 which form a perimeter at the upper edge of the opening of reservoir 28 to help channel composition 14 into the reservoir where the composition is sloshed and splashed into the vicinity of reservoir 28 , as the container 12 is shaken.

Turning now to FIG. 4 , the inventors have found that if a spray mechanism generally designated 19 of a conventional type having a long dip tube 50 extending partly or entirely into the oil droplet layer, shown by phantom line 31 , it has the effect of disrupting the droplets, causing them to rupture, deform, smear and spread around the surface of the plastic dip tube at 33 . The pearl-like droplets and the advantages of this attractive feature are lost and the appearance is further marred by the presence of the unsightly dip tube 50 . The usual material of the dip tube is plastic, usually polyethylene (PE).

FIG. 3 illustrates another embodiment of the invention which utilizes a stubby dip tube 52 that extends into composition 14 but stops short of the droplet layer 30 to avoid the disadvantages of disrupting the droplets in the droplet layer. Tube 52 in FIG. 3 is the supply means for the manual pump. While less advantageous than the embodiment of FIG. 1 since all of the composition 14 can not be used, this illustrates an alternate embodiment of the invention which still uses a dip tube, but which utilizes spray means that are free of plastic parts that extend into the droplet layer.

Plastic in Contact With Droplet Layer:

Experiments were conducted determine what type of plastic caused damage to the otherwise stable droplets. These experiments also revealed that other ingredients of the liquid composition may be adversely effected by plastic in contact with the droplet layer. It was found, for example, that mica in the composition would cling to certain plastics.

The following table summarizes the results.

	Composition
Plastic	Lab No.	Results
Urea	P26-JES-006-A	No apparent deformities of the pearl
Borax	P26-JES-006-D	No apparent deformities of the pearl
HDPE	P26-JES-006-F	No apparent deformities of the pearl
Fluorinated
EVOH (Ethyl	P26-JES-009-A	No apparent deformities of the pearl
Vinyl Alcohol)
GG9113PVC	P26-JES-008-A	No apparent deformities of the pearl
B155-Nylon-G	P26-JES-008-E	No apparent deformities of the pearl but
		the pearl clings to the piece of plastic
PVC	P26-JES-006-E	No apparent deformities of the pearl but
(Polyvinyl)		there are pigmentless oil drops attached
		to the piece of plastic
PET	P26-JES-007-A	No apparent deformities of the pearl but
(Polyester)		there are pigmentless oil drops attached
		to the piece of plastic
GPS	P26-JES-007-D	No apparent deformities of the pearl but
(General		there are pigmentless oil drops attached
Polystyrene)		to the piece of plastic
G21	P26-JES-009-B	No apparent deformities of the pearl but
Anphorous		there are pigmentless oil drops attached
Nylon		to the piece of plastic
HDPP	P26-JES-006-B	No apparent deformities of the pearl but
(High Density		makes mica layer cling to the plastic.
Polypropylene)
HDPE	P26-JES-006-C	No apparent deformities of the pearl but
(High Density		makes mica layer cling to the plastic.
Polyethylene)
LDPE	P26-JES-007-C	No apparent deformities of the pearl but
(Low Density		makes mica layer cling to the plastic.
Polyethylene)
MPDE	P26-JES-007-D	No apparent deformities of the pearl but
		makes mica layer cling to the plastic.
ABS	P26-JES-007-F	No apparent deformities of the pearl but
(Acrylonitrile)		makes mica layer cling to the plastic
Butadiene
Styrene)
Cyclo-olefin	P26-JES-007-B	Pearls are deformed and cling to plastic
Copolymer		in sheets, the product has permeated the
		plastic
100% C-100	P26-JES-008-B	Pearls are deformed and cling to plastic
LLDPE		in sheets
58G High	P26-JES-008-C	Pearls are deformed and cling to plastic
Gloss High		in sheets
Density PE
C-100 LLDPE	P26-JES-008-D	Pearls are deformed and cling to plastic
W/ampact		in sheets
fluorolation
process aide
C-100 LLDPE	P26-JES-008-F	Pearls are deformed and cling to plastic
W/silicone		in sheets

Composition Formulae:

The following table lists the preferred ingredients of the composition. The aqueous phase automatically separates from the oil phase after a time, the oil phase settling into a layer of stable spheres or droplets.

	INCI NAME	TRADE NAME	% Range
	Mineral Oil	Carnation White	10.00-30.00
		Mineral Oil
	Mica (and) Titanium	Flamengo Ultra Silk	0.03-2.5
	Dioxide	2500
	Mica (and) Lauryl	Meralmica SVA	0.004-1.0
	Lysine
	Water	Water	10.00-20.00
	Butylene Glycol	1,3 Butylene Glycol	0.5-5
	Fragrance	Essential Oils*	1.0-5.0
	SD Alcohol 40-B	SD Alcohol 40-B	55.00-80.00
	*Essential oils are fragrances without solubilizers such as stabilizers, surfactants or other additives. This type of ingredient is currently available and can be supplied by fragrance houses in the field.

	SUPPLIER	INCI NAME	TRADE NAME
	Witco	Mineral Oil	Carnation White
			Mineral Oil
	Engelhardt	Mica (and) Titanium	Flamengo Ultra
		Dioxide	Silk 2500
	Engelhardt	Mica (and) Lauryl	Mearlmica SVA
		Lysine
	Universal	Butylene Glycol	1,3, Butylene
			Glycol
	Union Carbide	SD Alcohol 40-B	SD Alcohol 40-B
	Different Suppliers	Fragrance	Fragrance

The following table explains the purpose of each ingredient in the composition.

INCI NAME	TRADE NAME	FUNCTION
Mineral Oil	Carnation White	Contributes to the amount of pearls
	Mineral Oil	produced. The lower amount of Mineral
		Oil the fewer beads produced. Mineral
		Oil provides moisturization.
Mica (and)	Flamengo Ultra	The pigment is a critical part to the
Titanium	Silk 2500	formation and size of pearl formed. The
Dioxide		more pigment added the smaller the
		pearl will be.
Mica (and)	Meralmica SVA	The pigment contributes to the size of
Lauryl		pearl formed. The more pigment added
Lysine		the smaller the pearl will be.
Water	Water	Plays a part in the formation and
		retention of the pearl. If there is to
		much or to little water, the pearls are
		deformed. Also if there is to much
		water the pearls will float to the top.
Butylene	1,3-Butylene	Plays a part in the formation and
Glycol	Glycol	retention of the pearl. If there is to
		much or to little Butylene Glycol, the
		pearls will be deformed. Also if there is
		to much Butylene Glycol the pearls will
		float to the top.
Fragrance	Fragrance	Contributes to the smell of the product.
SD Alcohol	SD Alcohol 40-B	Helps keep the pearls on the bottom and
40-B		also plays a part in the formation and
		retention of the pearl. If there is not
		enough alcohol in the system the pearls
		will not form or if they do form they
		will float to the top. This also acts as
		a preservative for the product.

Some of the ingredients also interact in a favorable way according to the invention. There is a relationship between the mineral oil and the pigments. The ratio of these ingredients have an affect on the size of the pearls. For example when one increases the percentage of mineral oil and pigment, the size of the pearls are increased.

Two specific examples of the composition, identified as P18-JES-090 (low oil content) and P24-JES-075-A (high oil content), are given here, with manufacturing steps.

Lab Formula P 18-JES-090

% W/W	Ingredient	INCI Name
PART A
0.045	Flamengo Ultra	Mica (and) Titanium
	Silk 2500	Dioxide
0.005	Mearlmica SVA	Mica (and) Lauryl
		Lysine
PART B
14.000	Carnation White	Mineral Oil
	Mineral Oil
PART C
13.989	Water	Water
PART D
1.000	1,3 Butylene Glycol	Butylene Glycol
2.000	Moonlight Path 3768-	Fragrance
	AY Mod 6
PART E
68.950	SD Alcohol 40-B	SD Alcohol 40-B
0.009	Red 33 (1.0)	Red 33
0.002	Blue 1 (1.0)	Blue 1
100.000	Total

The droplets are glossy pearls that are about 1 to 6 mm. in diameter.

Lab Formula P24-JES-075-A

% W/W	Ingredient	INCI Name
PART A
0.081	Flamengo Ultra	Mica (and) Titanium
	Silk 2500	Dioxide
0.009	Mearlmica SVA	Mica (and) Lauryl
		Lysine
PART B
25.167	Carnation White	Mineral Oil
	Mineral Oil
PART C
12.139	Water	Water
PART D
0.900	1,3 Butylene Glycol	Butylene Glycol
2.000	Moonlight Path	Fragrance
	3768-AY Mod 6
PART E
59.693	SD Alcohol 40-B	SD Alcohol 40-B
0.009	Red 33 (1.0)	Red 33
0.002	Blue 1 (1.0)	Blue 1
100.000	Total

The droplets are glossy pearls about 1 to 8 mm. in diameter.

Lab Formula: P18-JES-090

Manufacturing Directions

Special Instructions

All equipment used in this process must be thoroughly cleaned and inspected. After the equipment is inspected and passed, an alcohol rinse is required.

PART A

Step 1:

Add ingredients together in a blender and blend for 20 minutes

PART B

Step 1

Add the mineral oil. Start propeller agitation at 1000 rpm.

Step 2

Slowly sprinkle in the Part A pigment blend/

Step 3

Mix for 5 minutes.

PART C

Step 1

Add the water to the Part B kettle

Step 2

Mix for 5 minutes with propeller agitator at 200 rpm.

PART D

Step 1

In a separate container, mix Part D for 5 minutes.

Step 2

Take Part D and add to Part B kettle

Step 3

Mix for 5 minutes with propeller agitator at 200 rpm.

PART E

Special Instructions

At the start of this step, the kettle must be sealed and kept sealed until all product is emptied from the kettle.

Step 1

Add the alcohol to the Part B kettle

Step 2

Mix for 5 minutes with propeller agitator at 200 rpm.

Step 3

Continue with the agitation. Take a sample of the batch to QC to determine the amount of color needed.

Step 4

Add the amount of color needed and mix until uniform. Submit to QC for analysis and approval.

Lab Formula: P24-JES-075-A

Manufacturing Directions

Special Instructions

All equipment used in this process must be thoroughly cleaned and inspected. After the equipment is inspected and passed, an alcohol rinse is required.

PART A

Step 1

Add ingredients together in a blender and blend for 20 minutes.

PART B

Step 1

Add the mineral oil. Start propeller agitation at 1000 rpm.

Step 2

Slowly sprinkle in the Part A pigment blend.

Step 3

Mix for 5 minutes.

PART C

Step 1

Add the water to the Part B kettle.

Step 2

Mix for 5 minutes with propeller agitator at 200 rpm.

PART D

Step 1

In a separate container, mix Part D for 5 minutes.

Step 2

Take Part D and add to Part B kettle.

Step 3

Mix for 5 minutes with propeller agitator at 200 rpm.

PART E

Special Instructions

At the start of this step, the kettle must be sealed and kept sealed until all product is emptied from the kettle.

Step 1

Add the alcohol to the Part B kettle.

Step 2

Mix for 5 minutes with propeller agitator at 200 rpm.

Step 3

Continue with the agitation. Take a sample of the batch to QC to determine the amount of color needed.

Step 4

Add the amount of color needed, and mix until uniform. Submit to QC for analysis and approval.

Acidic Ingredients With Fragranced Moisturizing Pearls:

The effect of acidity was also investigated.

Most of the composition formulas have a pH of 7.8. It is assumed that previous products also have a pH in this range. Another aim of the invention is to lower the pH of the product to levels between 3.0-7.0.

The following types of acidic ingredients were used. These were Lactic Acid, Dihydroxyacetone, Citric Acid and Hydrochloric Acid. These ingredients were added at a range of 0.5% to 5.0%. The resulting pH's had a range of 3.0-5.5. Pearls in the samples with dihydroxyacetone above 2% began to float. The pearls or droplets that floated retained the round pearl shape. Additional alcohol was added to make the pearls sink. Samples with Lactic and/or Citric Acid above 1% had distorted pearls that floated on the top of the composition in its container. All other samples retained the round pearl shape formation and stayed on the bottom, the preferred form of the invention.

It was surprising that the hydrogen ion concentration could be reduced by many fold (pH 7 to pH 3) without damaging the appearance of the pearls. This was surprising because changes in other ingredients of the composition caused drastic changes in the formation and/or appearance of the oil droplets or pearls.

Selection of Fragrance:

A proper selection of fragrance type is also important for the invention. It was found that substantially pure fragrance oil, without solubilizers such as surfactants or other like ingredients, worked best. It was found that using standard fragrances with the usual solubilizers caused loss of stability, shape or adequate size in the pearls or droplets.

The following table illustrates the results of some of the tests that were conducted.

Fragrance	Mod No.	Results
Juniper	TCB44327	Formed broken spheres
Breeze
Raspberry	WF122298	Non-round spheres
Pearberry	5315-AY	Small round spheres
Flower Walk	5111-BA	Round sphere
Moonlight	3768-AY Mod 6	Round sphere
Path
Calming	5087-BA	Round sphere
Waters
Stolen	1923-BC	Round sphere
Moments
Dream Fields	143.604-L	Wrinkled broken pieces
Morning Song	4431011	Wrinkled broken pieces
Garden Glow	Version A	Round, elongated wrinkled spheres
Garden Glow	Version B	Round, elongated wrinkled spheres
Garden Glow	Version C	Round, elongated wrinkled spheres

The present invention can also be used to apply various oily and/or aqueous active ingredients to the skin, while still retaining the attractive “pearls” and avoiding the unsightly pump dip tube.

UV Absorber With Fragranced Moisturizing Pearls:

The inventors first experimented with Benzophenone-4 in their formulas. The amount added ranged from 0.01-0.05%. They found that Benzophenone-4 adversely affected the pearl stability, and did not protect the color from fading.

Samples of the water and organic solvents with water-soluble colors were made. To these samples, Benzophenone-1, Benzophenone-3, and Benzophenone-4 were added. The Benzophenone-4 samples stripped the color out in both UV and Dark conditions. The Benzophenone-1 and Benzophenone-3 retained the original colors.

Further experiments with Benzophenone-3 at 0.05% in the completed formulation produced positive results with no fading of color or distortion of the pearls.

Vitamin Additives:

Oil soluble vitamins and other oil soluble materials would reside in the lipophilic oil portion of the formulation. Water soluble vitamins and other water soluble materials would reside in the hydrophilic portion of the formulation.

Vitamin	Lab No.	Results
Beta-	P24-JES-098-A	Pearls enlarged and were rust
Carotene 0.01%		color
Beta-Carotene 0.05%	P24-JES-098-B	Pearls enlarged and were rust
		color
Retinol 0.01%	P24-JES-099-A	Pearls a little bit larger
Retinol 0.05%	P24-JES-099-B	Pearls a little bit larger
Vitamin E 0.01%	P26-JES-001-A	Solution is a little hazy. Pearls
		stable
Vitamin E 0.05%	P26-JES-001-B	Solution is a little hazy. Pearls
		stable
Panthenol 0.01%	P26-JES-002-A	Pearls stable
Panthenol 0.05%	P26-JES-002-B	Pearls stable
Ascorbic Acid 0.01%	P26-JES-003-A	Solution became slightly hazier
		and pearls enlarged at this
		concentration of ascorbic acid
Ascorbic Acid 0.05%	P26-JES-003-B	The haziness of the solution and
		the enlargement of the pearls
		further increased rleative to that
		of 0.01%
All of the above added	P26-JES-010-A	Solution is hazier. pH is 3.05.
with citric but without		Pearls stable
Beta-Carotene

Comparison With Other Compositions:

In the following table the typical composition of the invention (center column) is compared to the compositions of the Yves Rocher product and the Shiseido Patent.

Yves Rocher	Invention	Shiseido Patent
Alcohol	Alcohol	OILS
Mineral Oil	Mineral Oil	High molecular Weight hydrocarbons
C11-12		ie: liquid paraffin, scalene
Isoparaffin
Water	Water
Fragrance	Fragrance	Mono or Di-esters of fatty acids
Sage Extract
Glycerin		Vegetable and animal oils
Streptomyces
Extract
Sodium PCT		High fatty acids having 10 to 25 carbon
		atoms
Urea
Sage Oil		Fatty alcohols having 10 to 25 carbon
		atoms.
Peppermint Oil
Propylene Glycol	Butylene	Synthetic Oils
	Glycol
Mica	Mica	all can be used alone or in combination
Titanium Dioxide	Titanium
	Dioxide
Colors	Colors	PIGMENTS
		Anhydrous Silic Acid
		Calcium aluminate
		Calcium carbonate
		Titanium Dioxide
		Zinc
		Zinc peroxide
		Talc
		Colloidal Kaolin
		Inorganic pearl agent
		Bentonic
		Alumine
		Pearl
		Antimony oxide
		Magnesium silicate
		Yellow iron oxide
		Black iron oxide
		Bismuth oxychloride
		Zinc Laurate
		Microcrystalline cellulose
		Nylon 12
		Permeant orange
		Carbon black
		Lithol Rubin BCA
		Polyvinyl chloride
		mica
		LIQUIDS
		Organic liquids that are completely
		immiscible
		or slightly immiscible in oil. Has a
		specific
		gravity of less than 1
		ie: monohydric alcohol having carbon
		atoms
		of no greater than 5. Polyhydric
		alcohols
		having carbon atoms of no greater than
		6
		Polyethylene glycol, ethers, ketones.
		Water
		Mentions various additives: colorants
		antioxidants perfumes, uv
		abosrbers antiseptic wetting agents etc.

While a specific embodiment of the invention has been shown and described in detail to illustrate the application of the principles of the invention, it will be understood that the invention may be embodied otherwise without departing from such principles.

Claims

1. A body spray assembly comprising:a container which has an upright position and that is at least partly transparent; a liquid composition in the container; and spray means connected to the container for spraying the liquid composition from the container; the composition including an oil phase, an aqueous phase and pigment in the form of particles which are effective to form the oil phase into stable droplets that remain in a droplet layer in the aqueous phase after the composition is allowed to stand for a period of time, the droplets being at least partly visible in the container; the spray means being free of any parts that extend into the droplet layer when the container is in its upright position to avoid rupturing the stable droplets by contact with any parts.

2. An assembly according to claim 1, wherein the spray means comprises a manual pump having supply means for supplying liquid to the manual pump, no portion the supply means extending into the droplet layer.

3. An assembly according to claim 2, wherein the oil phase includes fragrance which is free of solubilizers.

4. An assembly according to claim 2, wherein the spray means comprises a manual reservoir pump.

5. An assembly according to claim 2, wherein the oil phase is about 10 to 30 wt % of the liquid composition, the aqueous phase including about 55 to 80 wt % of the composition alcohol, the pigment being about 0.03 to 4 wt % of the composition and including mica and a substantially pure fragrance in the form of essential oil in the oil phase which is substantially free of solubilizer and is present in the composition in an amount of up to about 5 wt %.

6. An assembly according to claim 2, wherein the oil phase includes mineral oil, the pigment comprises at least one of mica, titanium dioxide and lauryl lysine.

7. An assembly according to claim 5, wherein the composition comprises between 2 and 5 wt % fragrance.

8. An assembly according to claim 5, wherein the manual pump is a reservoir pump that is sealed to the container.

9. An assembly according to claim 5, wherein the composition comprises about: 10.00-30.00 wt % mineral oil; 0.03-2.5 wt % mica with titanium dioxide; 0.004-1.0 wt % mica with lauryl lysine; 10.00-20.00 wt % water; 0.5-5 wt % butylene glycol; 1.0-5.0 fragrance; and 55.00-80.00 wt % SD alcohol 40-B.

10. An assembly according to claim 2, including at least one vitamin additive.

11. An assembly according to claim 10, wherein the vitamin additive is an oil in the oil phase.

12. An assembly according to claim 2, including at least one acid in the composition for adjusting the composition pH to about 3-7 pH.

13. An assembly according to claim 12, wherein the pH range is 3-6.5 pH.

14. An assembly according to claim 12, wherein the composition includes up to 30 wt % acid.

15. An assembly according to claim 14, including about 1-5 wt % acid.

16. An assembly according to claim 14, wherein the acid is an organic acid.

17. An assembly according to claim 16, wherein the acid is an alpha- or beta-hydroxy acid.

18. An assembly according to claim 12, wherein the acid comprises hydroxy carboxylic acid.

19. An assembly according to claim 2, wherein the pump is permanently sealed to the container.

20. An assembly according to claim 2, wherein the oil phase comprises mineral oil and fragrance, the pigment comprises at least one of mica, titanium dioxide and lauryl lysine, and the aqueous phase including water, butylene glycol and alcohol.

21. An assembly according to claim 2, wherein the supply means comprises an upwardly open reservoir cup which is above a level of the liquid composition in the container in the upright position of the container.

22. An assembly according to claim 2, wherein the supply means comprises a stub tube, the stub tube extending into the composition above the droplet layer.