METHOD FOR HAIR STRAIGHTENING AND RELATIVE DEVICE FOR HAIR STRAIGHTENING

Abstract

A method for hair straightening comprising the steps of heating a hair plate (20) at a working temperature (T), applying to the hair a gas flow that changes the gas environment around the hair, and simultaneously passing the plate (20) slowly over one lock at a time carrying out a plurality of passages. In particular, the gas environment around the hair is composed of air wherein the chemical components have been varied (for example, it is hydrogen enriched), or the oxygen percentage has been varied, or a gas compound normally not present has been added. The relative straightening device comprises a gas flow generator (10) connected, through a conduit (14), to a dispensing plate (20) heated by heating means (21); the generator (10) comprises a hydrogen generator (11) connected to dispensing means (24) provided on the dispensing plate (20) at the heating means (41).

Description

FIELD OF THE INVENTION

The object of the present invention is a method for hair straightening through exposure to a modified atmosphere and to a variation in temperature, as well as a relative straightening device.

BACKGROUND OF THE INVENTION

As is known in the field of hair treatments, and in particular the straightening of curly or frizzy hair, the changes on the hair are made through mechanical, thermal and chemical actions.

At present, the most common straightening method by thermal/mechanical action involves heating the hair during combing, in order to make it smooth, usually with a hair dryer and a brush or with a hair plate. As is known, this method has only a temporary effect, lasting from a few hours to a few days, and with a significant deterioration of the hold if the hair is exposed to moisture or other external factors.

In order to counteract these negative effects, therefore, chemical products are often used which allow an extension of the duration and the hold of the straightening. This known method, however, exposes the subject treated to unpleasant vapors, long treatments, and not always positive results, as well as a weakening of the hair due to the aggressiveness of the chemical reagents used.

The known methods for hair straightening therefore involve stress on the hair which weakens the structure and generally worsens the state of health thereof. The consequences of this stress range from the impossibility of repeating the treatment with a high frequency, and in some cases they cause permanent damage to the hair.

SUMMARY OF THE INVENTION

The object of the present invention is to solve the problems of the prior art taking into account the needs of the field.

In particular, the object of the present invention is to provide hair straightening by means of a method which does not involve the use of aggressive or damaging chemical compounds for the hair, and ensures a lasting straightening without causing excessive stress on the hair.

This object is achieved by a method and device for straightening hair as described and claimed herein. Preferred embodiments of the invention are also described.

BRIEF DESCRIPTION OF THE DRAWINGS

Further features and advantages of the straightening method and of the respective device will be apparent from the detailed description that follows, illustrated by way of non-limiting example in the accompanying figures in which:

FIG. 1 shows a summary table of the results of the straightening tests carried out according to the straightening method according to the present invention;

FIGS. 2 and 3 show an embodiment example of a device for straightening the hair according to the present invention.

DETAILED DESCRIPTION

The method according to the present invention provides for subjecting the hair to a thermal and mechanical action, for example by means of a straightening plate, simultaneously with exposure to a particular gas atmosphere.

The straightening method provides for:

• • heating the plate to a working temperature T;
  • applying a gas flow on the hair that changes the gas environment around the hair and at the same time passing the plate (straightening) slowly on a lock at a time, carrying out a plurality of passages.

In particular, the plate is heated to a working temperature T of between 200° C. and 250° C., preferably to 230° C.

In particular, the gas environment around the hair during the passage of the plate is composed of air in which:

• • the chemical components have been changed through the addition of gaseous hydrogen, in percentages below the level of Combustion (LEL) by at least 50%;
  • or in which the percentages of oxygen have been changed by inert gas (e.g. Argon) to reach oxygen percentages lower than 5%;
  • or with the addition of compounds normally not present, such as for example suspension of micronized water or water vapor up to a maximum of 80% of the saturation value at room temperature.

In an embodiment example, the method involves applying a pure hydrogen gas flow to the hair through nozzles distributed along the plate or in its vicinity, allowing at its dispersion the proper dilution, and at the same time passing the plate slowly over one lock at a time. The hydrogen flow is supplied with a flow rate between 150 ml/min and 250 ml/min, preferably 200 ml/min.

Preferably, the method involves passing the plate slowly over a lock at a time carrying out at least a total of ten passages on the same lock. The passages can be consecutive, or interspersed with an intermediate treatment step.

The method may also include a pre-treatment step in which the hair is moistened with an aqueous solution. For example, the pre-treatment step involves moistening the hair with water, spraying a total of 1.2 ml.

In a further example, the hair is moistened with demineralized water.

In a further example, the hair is moistened with saline water containing 3% sodium chloride.

In a further example, particularly suitable in the case of bleached hair, the aqueous solution comprises 0.1% polyglutamic acid. This solution allows improving the structure and the shine of the hair.

In a further embodiment, the method can also provide a pre-treatment step in which the hair is combed with a brush (set treatment).

In a further embodiment, the method can also provide a pre-treatment step in which the hair is washed with shampoo and dried with a hair dryer.

The method can also provide an intermediate treatment step, provided between the straightening passages, in which the hair is moistened with an aqueous solution. It is important that this step does not leave residues of runny water.

The method also includes a post-treatment step, in which the hair is washed with shampoo, even more than once.

FIG. 1 shows a summary table of the results of the tests carried out on the hair straightening method according to the present invention, in the various application variants thereof, to evaluate the effectiveness and duration thereof also according to the different type of hair subjected to the treatment.

The locks are classified according to the type: African; Very frizzy; Soft curly; Frizzy curly; Frizzy and wavy.

Both natural locks and bleached locks are selected.

A standard treatment protocol is defined in which the hair is moistened (sprayed with water for a total of 1.2 ml), the plate is heated to a temperature of 230° C., and the hydrogen flow is made to escape from the center of the plate (flow rate of 200 ml/min).

The steps of the method followed in the various tests are defined below:

1P—Wet hair treatment with 10 plate passages;

2P—Wet hair treatment with 20 plate passages;

3P—Chemical straightening treatment with glyoxyl acid as a reference sample;

4P—Treatment with 20 plate passages on bleached hair;

5P—Initial hair treatment moistened with 5 plate passages; intermediate stage in which the hair is moistened again and treated with another 5 plate passages;

6P—Pre-treatment with brush (set) and then treatment with 10 plate passages;

7P—Damp hair treatment with 10 heated plate passages at a temperature of 160° C. as a reference sample to verify the optimal temperature of the plate;

10P—Damp hair treatment with 10 plate passages; intermediate treatment in which the hair is washed with cold water, dried with a hair dryer and treated with another 10 plate passages; post-treatment in which the hair is washed with 2 shampoos;

1T—pre-treatment in which the hair is washed with a shampoo and dried with a hair dryer; treatment with 5 plate passages; intermediate treatment in which the hair is moistened (without running water) and treated with another 7 plate passages;

1TBIS—pre-treatment in which the hair is washed with a shampoo and dried with a hair dryer; treatment with 5 plate passages; intermediate treatment in which the hair is moistened (without running water) and treated with another 7 plate passages; post-treatment in which the hair is washed with 2 shampoos.

The results of the tests carried out were evaluated considering the straightening degree obtained, gloss and tactile consistency. The evaluation was then summarized in: negative result; sufficient result; good result. This evaluation (summarized in FIG. 1) allowed identifying the most effective procedures of the method according to the present invention.

As can be seen from the result of test 7P, a plate temperature of 160° is considered insufficient to obtain a sufficient result; the plate must therefore have a temperature of at least 200° C., preferably of 230° C.

Furthermore, as can be seen in the result of test 3P (performed as a reference sample for sufficiency, by a known chemical straightening treatment), the tests relating to the method according to the present invention all lead to a better straightening result, with the sole exception of test 4P performed on bleached hair.

With reference to FIGS. 2 and 3, an embodiment example of a straightening device for applying the hair-straightening method according to the present invention, i.e. through exposure to a gas flow and to temperature variations, is generally indicated.

The device 1 comprises a gas flow generator 10 connected, through a conduit 14, to a dispensing plate 20 heated to a working temperature T.

The gas flow generator 10 comprises a hydrogen generator 11.

In an embodiment example, the hydrogen generator 11 is a hydrolyser. The electrochemical method for hydrogen production uses electrolysis which separates hydrogen and oxygen from water. The electricity applied in the system breaks the chemical bonds between the two atoms that make up a water molecule; the two gases that form hydrogen and oxygen migrate, the first one towards a cathode and the second one towards an anode.

In a further embodiment example, the hydrogen generator 11 is a proton exchange membrane (PEM). It is a hydrolysis cell with a polymer membrane, in which the production of hydrogen takes place simply using only distilled water without using corrosive solution.

In a further embodiment example, the hydrogen generator 11 is at least one hydride cylinder. In particular, in the medium-low pressure anhydrous hydrogen cylinder, the gas is present in a compound based on metal hydrides (canister) previously loaded by a suitable device. These cylinders have the advantage of storing hydrogen at low pressure and can be refilled. The advantage of this implementation is the total safety and independence from corrosive liquids and compounds in free gaseous form.

The gas flow generator 10 further comprises, connected to the hydrogen generator 11, an enrichment device 12 for enriching the gas flow with vapor from liquid, e.g. steam.

In an embodiment example, the enricher 12 is a bubbler.

In a further embodiment, the enricher 12 is an ultrasonic wet mist generator in the presence or absence of heating of the mixture.

The gas flow generator 10 further comprises pumping means 13 adapted to push the gas flow, through the conduit 14, towards the dispensing plate 20.

The gas flow generator 10 further comprises means for regulating the gas flow (not shown).

The dispensing plate 20 (shown in detail in FIG. 3) is heated to a working temperature T by means of heating means 21.

The dispensing plate 20 comprises a front straightening portion 22, which houses a pair of heating elements 21, and a rear handle portion 23 which allows an easy manual use of the dispensing plate 20.

In particular, the front straightening portion 22 further comprises dispensing means 24 for the gas flow, connected to the conduit 14. The dispensing means 24 are adapted to dispense the gas flow precisely at the heating elements, to allow the correct execution of the method according to the present invention, which provides for applying a gas flow to the hair while simultaneously passing the plate (straightening) on the locks.

Innovatively, the straightening method according to the present invention allows obtaining excellent levels of hair straightening without the use of aggressive chemical compounds or harmful for the hair.

Advantageously, the straightening method according to the present invention ensures a lasting straightening without causing excessive stress on the hair.

A person skilled in the art can make changes and modifications to the straightening method and relative device described above, without departing from the scope of protection as described and claimed herein.

Claims

1-15. (canceled)

16. A method for straightening hair, the method comprising the steps of: heating a plate for hair to a working temperature;applying to the hair a gas flow that changes gas environment around the hair; andsimultaneously passing the plate slowly over one lock at a time carrying out a plurality of passages,wherein the gas environment around the hair during passage of the plate is enriched with hydrogen by a gas flow generator comprising a hydrogen generator.

17. The method of claim 16, wherein the step of applying a gas flow to the hair provides for applying a pure hydrogen gas flow through nozzles distributed along the plate or in its vicinity, allowing proper dilution during its dispersion.

18. The method of claim 17, wherein hydrogen is supplied with a flow rate between 150 ml/min and 250 ml/min.

19. The method of claim 16, wherein the plate is heated to a working temperature between 200° C. and 250° C.

20. The method of claim 16, wherein the step of passing the plate over one lock at a time involves carrying out at least a total of ten passages, either consecutive or interspersed with an intermediate treatment step.

21. The method of claim 16, wherein a pre-treatment step of dampening hair with an aqueous solution is provided.

22. The method of claim 21, wherein the aqueous solution is selected from water, demineralized water, saline water containing at least 3% sodium chloride, and water comprising at least 0.1% polyglutamic acid.

23. The method of claim 16, wherein a pre-treatment step is provided wherein hair is combed and dried with a hair dryer (curling treatment), or washed with shampoo and dried with a hairdryer.

24. The method of claim 16, wherein an intermediate treatment step of dampening hair with an aqueous solution after a certain number of passages of the plate is provided.

25. A device for straightening hair applying the method of claim 16, the device comprising a gas flow generator connected through a conduit to a dispensing plate heated to a working temperature via heating means, wherein said gas flow generator comprises a hydrogen generator connected through the conduit to dispensing means provided on the dispensing plate near the heating means.

26. The device of claim 25, wherein the hydrogen generator is an electrolyzer, or a proton exchange membrane PEM, or at least a hydrogen cylinder.

27. The device of claim 25, further comprising, connected to the hydrogen generator, an enrichment device for enriching the gas flow with vapor from liquid, including steam.

28. The device of claim 27, wherein the enrichment device is a bubbler or an ultrasonic wet mist generator.

29. The device of claim 25, further comprising pumping means configured to push the gas flow through the conduit towards the dispensing plate, and/or means for regulating the gas flow.