A hair styling apparatus includes a first member and a second member extending along a central longitudinal axis. The first member and the second member are configured for relative movement between an open position for receiving hair therebetween and an approximated position. The first member and second member each include an inner plate segment and an outer shell segment. The first member and the second member are each configured to impart a straightening effect on hair when clamped with the inner plate segment. A heating assembly is connected via the inner plate segment to the first member and the second member. At least one ion emitter is for generating ions upon activation of the hair styling apparatus.

A hair styling apparatus including a first and a second arm moveable between a closed position in which a contacting surface of the first arm is adjacent a contacting surface of the second arm and an open position in which the contacting surfaces of each arm are spaced apart, whereby the contacting surfaces of each arm have complementary profiles so that, in use, a section of hair is clamped between the contacting surfaces when the arms are in the closed position, and where a heating zone on at least one of the contacting surfaces is provided to heat the section of hair between the contacting surfaces, a cooling zone on at least one of the contacting surfaces is provided for cooling the section of hair after the section of hair has been heated, and the cooling zone is curved whereby, in use, as the hair styling apparatus is moved along the section of hair in a generally linear fashion, the section of hair is curled.

A hair styling apparatus including a first and a second arm moveable between a closed position in which a contacting surface of the first arm is adjacent a contacting surface of the second arm and an open position in which the contacting surfaces of each arm are spaced apart, whereby the contacting surfaces of each arm have complementary profiles so that, in use, a section of hair is clamped between the contacting surfaces when the arms are in the closed position, and where a heating zone on at least one of the contacting surfaces is provided to heat the section of hair between the contacting surfaces, a cooling zone on at least one of the contacting surfaces is provided for cooling the section of hair after the section of hair has been heated, and the cooling zone is curved whereby, in use, as the hair styling apparatus is moved along the section of hair in a generally linear fashion, the section of hair is curled.

Disclosed is a magnetic elastic hairdressing massage comb, which includes a circle of outer non-electric conductive adiabatic gears with a certain interval space arranged around a working face of the shell and a heat conductive comb body layer arranged at the inner of the non-electric conductive adiabatic gear circle, on which several lattice arrayed magnetic elastic moving gears are set. Said magnetic elastic moving gears are hollow heat conductive gears. A heat resistant magnetic body X is fixed in the bottom of the hollow heat conductive gear body. On the upside of X, a heat resistant magnetic body Y is arranged with X with like poles facing each other. The top of Y is connected to a small high-temperature resistant adiabatic column, which stretches out of the opening at the top of said hollow heat guide gears.

Disclosed is a magnetic elastic hairdressing massage comb, which includes a circle of outer non-electric conductive adiabatic gears with a certain interval space arranged around a working face of the shell and a heat conductive comb body layer arranged at the inner of the non-electric conductive adiabatic gear circle, on which several lattice arrayed magnetic elastic moving gears are set. Said magnetic elastic moving gears are hollow heat conductive gears. A heat resistant magnetic body X is fixed in the bottom of the hollow heat conductive gear body. On the upside of X, a heat resistant magnetic body Y is arranged with X with like poles facing each other. The top of Y is connected to a small high-temperature resistant adiabatic column, which stretches out of the opening at the top of said hollow heat guide gears.

The present invention relates to a brush, comb, or hair appliance having a cage body comprising one or more functional inserts or plugs accommodated within the cage body containing bristles, teeth, or mini posts, such as loop posts and/or hook posts. Such cage-type hair tools may have no electricity or source of power, they may use traditional sources of power, or they may be heated by exposure to hot air, hot surfaces, or other heat sources. The one or more functional inserts within the cage body may be sized to move within the cage, made of a deformable and recoverable material, and/or have a specific shape to force into the cage body and expand to fill or overfill the cage body and may include hair additives, including but not limited to water, air, moisture, steam, liquids, fragrances, gels, mousses, foams, conditioners, keratin, oils, sprays, volumizers, softening agents, and/or powders.

The present invention relates to a brush, comb, or hair appliance having a cage body comprising one or more functional inserts or plugs accommodated within the cage body containing bristles, teeth, or mini posts, such as loop posts and/or hook posts. Such cage-type hair tools may have no electricity or source of power, they may use traditional sources of power, or they may be heated by exposure to hot air, hot surfaces, or other heat sources. The one or more functional inserts within the cage body may be sized to move within the cage, made of a deformable and recoverable material, and/or have a specific shape to force into the cage body and expand to fill or overfill the cage body and may include hair additives, including but not limited to water, air, moisture, steam, liquids, fragrances, gels, mousses, foams, conditioners, keratin, oils, sprays, volumizers, softening agents, and/or powders.

The present invention relates to a cosmetic hair treatment method comprising at least the steps consisting of: a) applying a mechanical tension to said hair, b) exposing said hair under mechanical tension to microwaves, in the presence of a solvent in vapor form in contact with said hair, without complete drying of the hair during microwave exposure, the solvent in vapor form being entirely generated by the evaporation of a compound which is present, before emission of the microwaves, in contact with the treated hair.

The present invention relates to a cosmetic hair treatment method comprising at least the steps consisting of: a) applying a mechanical tension to said hair, b) exposing said hair under mechanical tension to microwaves, in the presence of a solvent in vapor form in contact with said hair, without complete drying of the hair during microwave exposure, the solvent in vapor form being entirely generated by the evaporation of a compound which is present, before emission of the microwaves, in contact with the treated hair.

An attachment for a hair care appliance includes a body having a fluid inlet, a fluid outlet, a fluid flow path extending between the fluid inlet and the fluid outlet, a first vane and a second vane for directing fluid within the fluid flow path towards the fluid outlet wherein the body comprises at least two extended plates and the fluid outlet comprises a slot defined by an overlap between the at least two extended plates wherein the first vane and the second vane are curved and positioned within the overlap between the at least two extended plates wherein the first vane and the second vanes curve in opposite directions. The fluid inlet may have a first cross sectional area, the body includes an outer wall that has a second cross sectional area, and wherein the second cross sectional area is greater than the first cross sectional area.