NO129979B - - Google Patents

Description

Hair dye unit for portioning out

ready-to-use hair dye.

The invention relates to a hair dye unit of the type specified in the preamble of the claim.

Chemical compounds which are capable of being oxidized to form colored oxidation products have found wide application among cosmetic chemists in the development of hair dye products, as such compounds are usually referred to as oxidation hair dyes. The most common products of this kind are based on aromatic compounds which, in an alkaline medium, can be quickly oxidized by an oxidizing agent1, such as hydrogen peroxide, forming colored by-products with color tones that are widely accepted by people who wish to have their hair dyed. Products of this type are usually packaged with the alkaline system, which contains coloring chemicals and hydrogen peroxide in separate packages that are mixed before use. This is relatively sunny and cumbersome for the consumer, and there has been a need for a long time for a package in which the mixing of the components is carried out automatically and from which the finished mixture can be dispensed directly to the hair.

When the individual components of oxidation hair dyes are to be mixed by hand by the user, this means that the individual components must be measured out in approximately the correct amounts and mixed together in a suitable manner. This will usually mean that the user must store a special mixing vessel for this one purpose, as it is not recommended to use ordinary vessels or containers found in a normal household, as these easily become permanently discolored and therefore cannot be used for other purposes. Due to the fact that the component containing the oxidation dye is relatively alkaline, stains can easily occur during tanning which are difficult to remove when the dye is tanned, e.g. in a bathtub when the color development occurs as a result of air oxidation.

For users of such hair dyes, it represents a significant advance that a correct portioning and mixing of the two components is ensured when the agent is to be used. Furthermore, it is an advantage that the product is available as a ready-to-use unit, so that you can portion out the desired amount and quickly work it into the hair. If the first portioning is not sufficient, you can immediately portion out a further amount in a simple and clean way, and incorporate this into the hair. On the other hand, in cases where the components of the hair dye have to be mixed together for use, the user must either mix such an amount that one is sure to have a sufficient amount, which usually means that one mixes together more than is needed, or one has to repeat the mixing process, ..which can be uncomfortable and difficult when you are already in the process of colouring.

The present invention therefore represents a significant advance for the user, both in practical terms and economically.

The hair dye unit according to the invention is characterized by what is stated in the characteristic of the claim.

The hair dye unit is in the form of a container that is filled with two materials that are kept isolated from each other. One of these materials includes an oxidation hair dye. The term "oxidation hair dye" as used herein denotes any chemical which, in an alkaline medium, can react with hydrogen peroxide to form a colored material suitable for safe application to human hair and for changing hair color. Typical Chemicals covered by the term "oxidation hair dye" are aromatic nitro- and/or amino compounds such as o- and p-phenylenediamine,

2,4 diaminoanazole, p- and m-toluylenediamine, nitro-substituted o-, m- and p-phenylenediamine, o- and p-aminophenol and their nitro-substituted derivatives, p-aminodiphenylamine, p-aminodimethylaniline and p-aminocresol etc. The expression "oxidation hair dye" includes a coloring system containing mixtures of the above-mentioned compounds, including systems that include common modifiers, such as resorcinol, pyrogallol, pyrocatechin and 2-naphthol, etc. The whole subject of oxidation hair dyes is described in detail in the literature, e.g. in a series of articles entitled "Technology of Modern Oxidation Hair Dyes" which appeared on pages 25-28, 35-37 and 47-50 of the July, August and September 1956 issues respectively of American Perfurner and Aromatics.

As indicated above, an oxidation hair dye is defined as a chemical which in an alkaline medium can react with hydrogen peroxide to form a colored material which is suitable for safe application to human hair to change the hair color and/or retain the existing colour. Consequently, the material comprising the oxidation hair dye must comprise an alkaline compound capable of providing a pH of 8.5 - 10.0 in the finished mixture dispensed from the hair dye unit. In accordance with common methods of hair dyeing, this alkaline compound can be ammonia or ammonium hydroxide, which is the form that ammonia has in an aqueous system. Ammonium hydroxides which are substituted with lower alkyl and lower alkanol and where the lower alkyl and lower alkanol parts contain 1 or 2 carbon atoms, e.g. tetramethylammonium hydroxide, tetraethylammonium hydroxide and tetraethanolammonium hydroxide, and correspondingly substituted sulfonium hydroxides, e.g. trimethylsulfonium hydroxide, shall be considered here as full equivalents to ammonia (or ammonium hydroxide).

The alkaline compound can also be a lower alkanol-amine containing 2-4 carbon atoms, e.g. monoisopropanolamine, monoethanolamine and monobutanolamine etc.

The other material that is kept isolated from oxidation hair dye material easily in the hair dye unit includes hydrogen peroxide. For packages for dispensing products at room temperature, the amount of hydrogen peroxide is the amount that can react with the amount of

the oxidation hair dye component present in the package.

The material comprising hydrogen peroxide also comprises usual stabilizers and preservatives for hydrogen peroxide and also an acidic component, e.g. phosphoric acid, in sufficient quantity to give the system a pH so that the hydrogen peroxide obtains optimum stability.

When distributing heated materials, the heat can be generated either by chemical reduction of hydrogen peroxide with a reducing agent or by catalytic decomposition with a decomposition catalyst. The reducing agent or catalyst is present in the material containing the oxidation hair dye component. Applicable reducing agents include sulfur dioxide and salts derived from it, such as alkali metal sulfites and bisulfites, thiourea, l-phenyl-2-thiobarbituric acid and derivatives thereof as described in US patent no. 3,341,418, alkali metal sulfides and alkali metal thiosulfates, etc. It is important that the reducing agent which is used in the production of the packing according to the invention is completely compatible with and stable in the presence of the oxidation hair dye component. Heat can also be generated by catalytic splitting of hydrogen peroxide, and this reaction releases heat with the simultaneous formation of water and gaseous oxygen. Several substances are known which can catalyze such cleavage, e.g. metals, such as sol, lead, iron, chromium, vis-muth, copper, titanium, molybdenum and silicon and their oxides and salts, activated carbon and enzyme systems, such as catalase, etc. The catalyst used in particular must be stable in the presence of the oxidation hair dye component, and furthermore it must not catalyze a cleavage of

this constituents. According to the invention, one can also be used there

. combination of both methods for the development of heat.

The relative quantity ratios between hydrogen peroxide and oxydase ion hair dye in the hair dye unit according to the invention, where a heated material is to be dispensed, must be such that there is first a sufficient amount of hydrogen peroxide so that the desired oxidation of the oxidation hair dye component can take place, and that then a further the amount of hydrogen peroxide present will release the required amount of heat by reduction with a reducing agent or by splitting with a catalyst, whereby an appropriate temperature increase is obtained during distribution.

As indicated above, the two materials are kept isolated from each other in a container. Such a container is constructed of a rigid or flexible material, depending on the pressure-producing means to be used for dispensing. The container can be made from a number of materials used in aerosol packaging, such as glass, rigid plastic and metal. The propellants must be compatible with the materials in which they are used, and must have a vapor pressure of approx. 0.85 - 6.0 kg/cm <2>manometer pressure at 21°C if saturated, aliphatic hydrocarbons are used as propellants, such as propane, butane and isobutane etc, and/or chlorofluoroalkanes that contain no more than 2 carbon atoms and at least one fluorine atom, and which has, according to the invention, a desirable vapor pressure. Gaseous propellants such as nitrogen, carbon dioxide or dinitrogen oxide, or propellants condensed to liquid, such as dimethyl ether with high water solubility, can also be used as pressure generating agents. Mixed propellant subsystems can also be used, e.g. a mixture of dimethyl ether and a chlorofluoroalkane or hydrocarbon, or a hydrocarbon or a chlorofluoroalkane in connection with a gas, such as nitrogen, carbondioxyd or dinitrogenoxyd. In addition, there may be a modifying agent which can regulate the propellant's solubility and volatility, such as pentane. A propellant system based on pentane and a liquid-condensed propellant, such as chlorofluorohydrocarbons, has been shown to produce delayed foaming of the distributed hair dye. This means that the product is dispensed from the container as a liquid that is ideally suited to penetrate all hairs on the head, after which, after a time delay of several seconds, a stable foam with dimensional stability is formed, and this is a condition that is ideally suited for retention and distribution of the product in the hair. Other lower hydrocarbons and organic modifiers with similar properties can be used with the same effect as pentene in connection with the invention.

The two materials which are composed as indicated above are packed in such a way in a container that they are isolated from each other. Valve devices are used which are connected to each material so that a quantity of each material is mixed by maneuvering the valve devices and that the resulting mixture is dispensed from the packing. It is clear that the concentration of the relevant components must be adjusted in relation to the proportioning characteristics of the valve devices so that when operating the valve devices a suitable mixture of the two materials is obtained depending on the desired end applications.

The hair dye unit can be constructed as a container with two chambers separated by a rigid wall, each chamber being provided with a valve leading to a common discharge line. Such a construction is shown in US patent no. 2,941,696, and in this type of packing both materials are under pressure. An aggregate as described in US patent no. 3,295,727 can also be used, and in this case one of the materials is put under pressure and is present in the main part of the container, while the other material is present in the shown chamber which surrounds the immersion pipe. In this embodiment, the vapor pressure of the first material affects the second material, and both are distributed by operating the valve.

A particularly suitable embodiment for the hair dye unit according to the invention comprises a package with two chambers in which the two materials are packed in a pressure-tight container, whereby the chambers are separated by a movable wall which can be affected by a pressure difference between the two chambers when valve means are operated as

is attached to the container. The material in the container outside the movable wall is put under pressure. In such a system, the movable wall can be a movable piston, e.g. as shown in US Patent No. 2,217,936, or a compressible bag, as shown in US Patent No. 2,973,833.

As indicated above, a particularly preferred embodiment of the hair dye unit according to the invention comprises a pack with two chambers, whereby the chambers are separated by a movable wall, e.g.

in the form of a stamp or a deformable bag. Although each material can be introduced into each chamber both with this packing type and with the other packing types indicated above, it has been shown that optimal results are achieved in terms of distribution of a hair dye with reproducible coloring effect from one distribution to another' when packing the oxidation hair dye material in the inner chamber of the container and separated from the main part of the container by a movable wall. A person skilled in the art knows that a liquid material packed in a deformable bag or in a chamber separated from another chamber by means of a piston is filled with liquid without any above liquid-free space during the whole distribution period of the package if the space inside the seal and the outside of the bag or stamp are put under pressure. It has been shown that the oxidation hair dye materials are unusually sensitive to foaming when shaken. As consumers are in the habit of shaking aerosol cans before application, a material capable of forming foam in a chamber with top-

standing steam room, give a foam. This foam leads to the formation of a stable gas phase in the liquid, and by converting part of the liquid into a stable foam above the liquid, both factors will contribute to a reduction in the volume of the liquid phase. The effect becomes stronger with an increase in the above liquid-free space. In the case of an exact simultaneous distribution of two liquids through a valve, a proportioning of the two liquids is necessary to form a suitable mixture. In the devices indicated above, such a proportioning is achieved by maintaining uniform cross-sectional areas for the flow of each liquid; The rate of expansion will vary over the uniform cross-sectional surfaces if one of the liquids is foamed and the other is liquid. This problem is particularly serious if one of the liquids constantly foams more as the distribution is carried out, as this leads to an uneven proportioning, and the resulting mixture of liquids will not satisfy the critical conditions for chemical reaction. If the oxidation hair dye material, which is sensitive to foaming, is packed in a chamber that does not have any liquid-free space above, it has been shown that foaming can be effectively avoided, and that uniform proportioning can be achieved throughout the dispensing time of the hair dye unit. In a particularly preferred embodiment of the package according to the invention, the two chambers are therefore separated by a movable wall, and the oxidation hair dye material is packed in the inner chamber.

As described above, the embodiment comprising a container with two chambers separated by a movable wall represents a particularly effective hair dye unit. The hair dye unit is designed for the simultaneous dispensing of two liquids, one of which can form foam, with a container with two chambers, the inner chamber being separated from the outer one by a movable wall. The foam-forming liquid is placed in the inner chamber, and the other liquid that is pressurized is placed in the outer chamber. A pressure acting on the movable wall causes the liquid inside the inner chamber to fill it completely without any free space or the liquid-free space above. When such a package is shaken, no foam is formed, and during the entire service life of the package for distribution, the respective density for each liquid remains constant, thereby ensuring an even proportioning of the liquids while achieving a correct mixture.

The two components of the hair dye unit can be prepared using additives common to cosmetic products, e.g. humectants, fragrances, surfactants and emulsifiers, for the production of a product which is dispensed from the package with the desired cosmetic appeal to optimally appear appealing to the consumer. Surface-active substances of the type normally used in hair detergents can be used, whereby hair dyes of the "shampoo-in" type are retained. Hydrogen peroxide materials can contain emulsifiers if insoluble lubricants are used and an easily reconstituted emulsion is desired. With overpressure generation using inert gas, soluble propellants or a system of two liquid phases, the hydrogen peroxide material can consist exclusively of an aqueous, acidic solution of hydrogen peroxide with an antioxidant.

The invention is illustrated in the following examples:

Example 1

The following materials were used for insertion in a package with the embodiment shown in US patent no. 2,973,883:

96 parts by weight of material A was filled into a pressure-tight container, and 100 parts by weight of material B was filled into a deformable container with a smaller diameter than the diameter of the opening in the pressure-tight container. The deformable container was inserted, and the valve devices attached so that they were individually connected to the two materials, the valve devices being constructed in such a way that a maneuvering of these produced a flow of the materials A and B in a

relative amount of 1:1. The container was pressurized with 4 parts by weight of a mixture consisting of 84% isobutane and 16% propane. By operating the valve device, a mixture of parts of the two materials was obtained to form a hair dye which was dispensed at room temperature in a form that was ideally suited for dyeing hair.

Example 2

The following materials were used for insertion into a package of the form described in US patent no. 2,973,883.

A. Hydrogen peroxide material

The material was prepared in the same way as in example 1, but with the exception that 30 parts of hydrogen peroxide with a strength of 35% were used.

B. Oxidation hair dye material (redd brown dyed one)

The material was produced in the same way as in example 1, but with the exception that the amount of ammonium hydroxide was increased to 19.14 parts, and that the following additional additives were added:

The materials were packaged, and the package was pressurized as described in example 1. By operating the valve device, a mixture of parts of the two materials was obtained to form a hair dye which was dispensed in a heated state in a form that was ideally suited for hair dyeing .

Example 3

The following materials" were used for insertion in a package of the form described in US patent no. 2,973,883.

A. Hydrogen peroxide material

The material was produced in the same way as stated in example 1.

B. Oxidation hair dye material (red brown shade)

The material was prepared in the same way as in example 1, but with the exception that the ammonium hydroxide was replaced with 19.14 parts by weight of monoisopropanolamine.

The materials were packaged, and the package was pressurized as described in example 1. By maneuvering the ventilation devices, a mixture of parts of the two materials was obtained to form a hair dye that was dispensed at room temperature in a form that was ideally suited for hair dyeing.

Example 4

The following materials were used for insertion into a package of the form described in US patent no. 2,973,883.

A. Hydrogen peroxide material le

The material was produced in the same way as in example 2.

B. Oxidation hair dye material (light reddish brown shade)

The material was prepared as in example 2, but with the exception that the ammonium hydroxide was replaced with 22.0 parts by weight of monoisopropanolamine.

The materials were packaged, and the package was pressurized as described in example 1. By operating the valve devices, a mixture of parts of the two materials was obtained to form a hair dye which was dispensed in a heated state in a form ideally suited for hair dyeing .

Example 5

The following materials were used for insertion into a package of the form described in US patent no. 2,973,883 for dispensing a hair dye in a heated state of the "shampoo-in" type.

92 parts by weight of material A were filled into a pressure-tight container, and 100 parts of material B were filled into a deformable container with a smaller diameter than the diameter of the opening in the pressure-tight container. The deformable container was inserted, and the valve devices were finally attached so that they were individually in connection with

the two materials, as the valve devices were constructed in such a way that when they were operated, a flow of the materials A and B was formed in a quantity ratio of 1:1. The vessel was pressurized with 8 parts by weight of a mixture of 50% dichlorodifluoromethane and 50% 1,2-dichloro-1,1,2,2-tetrafluoroethane. By maneuvering the ventilation devices, a mixture of parts of the two materials was obtained to form a hair dye which was dispensed in a heated state in a form that was ideally suited for hair dyeing.

The following example shows the use of a propellant system which has been modified with pentane to achieve a delayed foaming of a hair dye after application to the hair.

Example 6

The following materials were used for insertion into a pack of the form shown in US patent no. 2,973,883 for dispensing a hair dye.

100 parts by weight of material A was filled into a pressure-tight container, and 100 parts by weight of material B was filled into a deformable container with a smaller diameter than the diameter of the opening in the pressure-tight container. The deformable container was inserted and the valve devices were connected so that they were individually connected to the two materials, the valve devices being constructed in such a way that when they were maneuvered, a flow of the materials A and B was formed in a quantity ratio of 1:1 . The container was pressurized with 16

parts by weight of a mixture of 50% pentane and 50% 1,2-dichloro-1,1,2-tetrafluoroethane. By maneuvering the valve devices, a mixture of parts of the two materials was obtained to form a hair dye which was dispensed in a form ideally suited for hair dyeing. When dispensed, the mixture was a thick, compact liquid which, after 4 seconds, expanded into a foam. The original liquid state made it possible for the agent to penetrate into and surround all the hair on the head, and the resulting foam had good dimensional stability, so that the agent was held firmly in such a way that an even coloring was achieved.

Claims (1)

Hair dye unit for dispensing ready-to-use hair dye, characterized by the combination of the following per se known features: (1) an outer container in which two separate chambers are arranged which are kept under pressure, (2) a mixing valve device that communicates with each of the two separate chambers, (3) one chamber contains an oxidation dye, (4) the other chamber contains an oxidizing liquid based on hydrogen peroxide, (5) when the mixing valve device is activated, the contents of the two containers are pressed separately into the mixing valve device, mixed in this and fed out of the valve.