FR3010305A1 - PROCESSING PROCESS FOR PERMANENT. - Google Patents

Abstract

The invention relates to a permanent treatment method which comprises the steps of applying a first permanent agent which has a reducing action to dilate and soften the hair wound on a roll, to rinse off this first agent, to apply on the hair one or two or more compounds selected from a group consisting of ascorbic acid, an ascorbic acid derivative and a salt of ascorbic acid, and an intermediate treatment agent, spraying ozone on the hair in order to oxidize the compound, and to use the oxidized compound and ozone to reconstruct the disulfide bridges of the hair.

Description

Field of the Invention [0001] The present invention relates to a permanent treatment method which can prevent damage to the hair, reduce the difference between the wet and dry waviness form, and improve the performance of a hair salon by reducing the time during which a hairdresser is busy with this task. PRIOR ART [0002] In the patent document 1 indicated below, the applicant proposed a permanent treatment method which allowed an initial undulation close to the diameter of a roll to be maintained for a prolonged period of time. The invention comprises a treatment with a first permanent agent, followed by an intermediate washing which stops the progression of the open chain of the disulfide bridges, the arrangement of the hair in a state adapted for the rearrangement of the hair molecules (polymer movement) , passing the hair to a dry state, and treating with a second permanent agent to reconstruct the disulfide bridges to form a wave of a desired shape. The treatment method for permanent comprises a first step for winding the hair on several rollers, a second step for applying to the wound hair a first permanent agent containing a reducing agent, in order to dilate and soften the hair, a third step comprising rinsing away the first perming agent that adheres to the expanded and softened hair, or stopping the action of the first perming agent by using an intermediate treatment agent that neutralizes said first permanent agent, or both rinsing and stopping the action, a fourth step in which, following the third step, the part of the head of the person wearing the helmet with a helmet is covered. treatment device for permanent and is thus left for a fixed duration, while operating a blower to heat the hair, which maintains a wet state, or covering the entire head of the person, from the front to the back of the head, in a cloth, and the fan is actuated with a low setting, to create a negative pressure in the rollers to maintain a wet state, a fifth step for drying the hair with a negative pressure in the rollers, operating the blower with a high setting, and a sixth step in which, once the hair is dry, a second perming agent containing an oxidizing agent is applied for a fixed time, to reconstruct the disulfide bridge in order to memorize the shape of the dry state.

Description of the Related Art [Patent Documents] [0004] [Patent Document 1] Japanese Patent No. 4473848 Presentation of the Invention [0005] However, when the invention which is presented by Patent Document 1 above is used, during the steps of arranging the hair preferably to rearrange their molecules, drying and then treatment of the hair with the second permanent agent, the person wearing the hat is obliged to keep the same position on his seat, which is annoying. In addition, during the treatment with the second permanent agent, the practitioner can not do anything else at the same time, since he or she must stay with the person, which reduces the performance of the salon. hairdressing. We need to improve this point. Another problem is that since the second perming agent is a water-soluble liquid, in a wet environment the reconstruction of the disulfide bridges progresses in a direction that weakens the shape of the hair obtained during the drying step. and when the hair dries, the shape of the waving is not the same as when the hair was wet. The present invention has been proposed given the situation that has just been described. It is an object of the present invention to provide a permanent treatment method which can reduce the difference between wet and dry wave form, reduce the time during which the practitioner is occupied by the treatment, which will increase the performance of the salon of hairstyle, remove the discomfort of the haired person, and prevent damage to the hair. To achieve this object, the present invention is characterized in that it comprises the steps of applying a first permanent agent which has a reducing action to dilate and soften the hair wound on a roll, to be eliminated by rinsing the first permanent agent, to apply to the hair one or two or more compounds selected from a group consisting of ascorbic acid, an ascorbic acid derivative and a salt of ascorbic acid, and a treatment agent intermediate, then spray ozone on the hair to oxidize the compound, and reconstruct the disulfide bridges of hair through the oxidized compound and ozone. For the above-mentioned permanent treatment process, it is preferred that the intermediate treatment agent contain a compound having a concentration of from 0.13 to 24 percent by weight, and that an atmosphere of ozone that contains 1.0 ppm or less of ozone. In particular, during the reconstruction of the disulfide bridges of the hair, it is also preferable that the compound adheres to the hair wound on the roll and that the moisture of the hair is maintained while heating is applied for a prescribed period of time after which a negative pressure state is established within the roll, and while a blower is used for drying, ozone is sprayed to the hair to wrap the hair in an ozone atmosphere. In the present invention, the oxidized compound is a dehydroascorbic acid or a salt of dehydroascorbic acid. The treatment method for permanent specified above also comprises the application of a second permanent agent having an oxidizing action, on the hair in which the disulfide bridges have been reconstructed, for an additional reconstruction of the disulfide bridges. In the permanent treatment method according to the present invention, one or two or more compounds selected from a group consisting of ascorbic acid, a derivative of ascorbic acid and a salt of ascorbic acid, and a Intermediate treatment agents are applied to the hair, after which ozone is sprayed onto the hair in order to oxidize the compound, whereby the disulfide bridges of the hair are reconstructed by the oxidized compound and the ozone. Therefore, the disulfide bridges of the hair can be reconstructed in a dry ozone environment by the oxidized compound and the ozone, which solves the problem of the difference between wet and dry wave form, in which the form of Dried hair ripple is different from that of the treatment process. Since the combined use of the oxidized compound and ozone has a better oxidative action, it can form a perm which has a better finish. In addition, reconstruction of the disulfide bridges in a dry environment allows the treating compounds of the intermediate treatment agent to penetrate completely into the hair. When, with the intermediate treatment agent, a compound such as an ascorbic acid or similar substance applied to the hair is oxidized by ozone, it forms a dehydroascorbic acid or a salt of dehydroascorbic acid, the Oxidative action can be used quickly to effectively form a permanent with a good finish. The second permanent agent does not have to be applied and left for a fixed period, it frees the practitioner, which increases the efficiency of the work of the hairdresser and, also because of the reduction of the duration total treatment, significantly reduces the discomfort of the haired person. Since the oxidizing effect of ozone and the oxidized compound can be exerted rapidly on the hair, the degradation of the hair due to the residual oxidizing action, which is a concern, can be reduced. Given the reducing action permitted by the salt of ascorbic acid, the drying and oxidation steps can be started without preventing rearrangement of the hair molecules. In the present invention, in particular, perms can be formed which have a better finish, because of the intermediate treatment agent which contains a compound concentration of 0.13 to 24 percent by weight, and the formed ozone atmosphere that contains not more than 1.0 ppm ozone. In addition, since the oxidation effect can be effectively achieved with the above-mentioned compound and ozone parameters, the amount of ozone needed to reconstruct the disulfide bridges can be reduced, which ensures the safety and comfort of the practitioner and the person wearing, and helps improve the safety and comfort of the treatment procedure. In the present invention, also, during the reconstruction of the hair disulfide bridges the compound adheres to the hair wound on the roll, and the moisture of the hair is maintained while heating is applied for a prescribed time. Therefore, the oxidizing action of the dehydroascorbic acid or dehydroascorbic acid salt constituting the ozone oxidized compound can be effectively extended to the hair wound on the roll. If it is assumed that the oxidizing action of the oxidized compound is effective, the amount of ozone required can be further reduced. At the same time, the hair can be arranged in a state suitable for the rearrangement of the hair molecules (polymer movement). In addition, the invention establishes a state of negative pressure within the roll, so that while the hair is dried by the blower, an ozone mist is sprayed toward the hair, wrapping it in an atmosphere of 'ozone. The compound and the ozone can thus be effectively brought into contact with the hair wound on the roll, which ensures a safe progression of the reconstruction of the disulfide bridges in a dry environment and further solves the wet-dry difference. Wrapping the hair in an ozone atmosphere ensures that the oxidizing action is uniformly applied to eliminate unevenness in the finish. An additional reconstruction of disulfide bridges hair by the oxidized compound and ozone can be achieved by applying to the hair a second permanent agent which has an oxidizing action. This application of the second permanent agent can be carried out in a very short time, from 1 to 3 minutes. This step can be integrated into the washbasin treatment procedure, where it hardly requires any treatment time. An even more uniform finish can be achieved by this application of the second perming agent to the hair in which the disulfide bridges have been reconstructed by the oxidized compound and the ozone. Brief Description of the Drawings [0016] FIG. 1 is an overall perspective view of a permanent treatment device used to implement the permanent treatment method of the present invention.

Fig. 2 is a flowchart illustrating the entire permanent processing method of the present invention and a program setting mode. Figure 3 is a flow chart of a chemical agent spray mode in the permanent treatment process of the present invention. Figure 4 is a flowchart of a creep mode in the permanent treatment process of the present invention. FIG. 5 is a flow chart of a glass transition mode in the permanent treatment process of the present invention. Description of Embodiments [0017] The permanent treatment method of the invention will now be described in detail. in the following. The embodiment described below is an example of a specific implementation of the invention, which is not limited to this example. The design can be varied in a variety of ways as the modifications are not outside the scope of the invention. The present invention relates to a permanent treatment method according to which a first permanent agent having a reducing action is applied to the hair wound on a roll, to dilate and soften the hair, this first permanent agent is removed by rinsing, and an intermediate treatment agent is applied, after which the disulfide bridges of the hair are reconstructed. The intermediate treatment agent contains 0.13 to 14 weight percent (0.01 to 1.87 M) of one or two or more compounds selected from the group consisting of ascorbic acid, ascorbic acid and a salt of ascorbic acid. Instead of being contained in the intermediate treatment agent itself, the compound (s) selected from a group consisting of ascorbic acid, ascorbic acid derivatives and a salt of ascorbic acid may be prepared in the living room just prior to use, in the form of a compound powder or a like product, adjusted to represent 0.13 to 24 percent by weight of the intermediate treatment agent. In this case, a technique may be proposed, according to which the prepared composition is applied to the hair, as well as the intermediate treatment agent. During the reconstruction of the disulfide bridges of the hair, an atmosphere is formed containing not more than 1.0 ppm of ozone, in which the haze of ozone comes into contact with the hair. Ozone oxidizes the compound or compounds selected from a group consisting of ascorbic acid, ascorbic acid derivatives and ascorbic acid salt which have already been applied to the hair, and the disulfide bridges of the hair are reconstructed by the oxidized compound and ozone. When reconstructing the disulfide bridges of the hair, heat is applied in particular for a prescribed time (3 to 15 minutes, for example), to ensure that the compound such as ascorbic acid or other that is contained in the Intermediate treatment agent adheres to the hair wrapped on the roll. At that moment, the moisture of the hair is maintained. In addition, a negative pressure state is established inside the roll, and while the blower is used for drying, ozone is sprayed onto the hair to form an ozone atmosphere so that all hair is wrapped in a uniform concentration of ozone and that the compound and the ozone can be effectively brought into contact with the hair wound on the roll. In the invention, a reconstruction of the disulfide bridges is done through the oxidized compound (dehydroascorbic acid, etc.) and ozone in the dry environment of the ozone atmosphere. Therefore, with the treatment method in which the second permanent agent is applied in a conventional wet environment, which is followed by finishing with dry hair, the problem of the difference between wet and dry waveform is resolved. Moreover, since with the formation of the ozone atmosphere, all the hair is enveloped by a uniform concentration of ozone, the oxidizing action intervenes uniformly over the whole, eliminating an uneven permanent finish. When the ascorbic acid or other compound applied to the hair with the intermediate treatment agent is adhered to the hair rolled on the rollers and is oxidized by ozone to form dehydroascorbic acid or a salt thereof. Dehydroascorbic acid, its oxidizing action is exerted at this time and place because of its labile properties, effectively extending the action to the hair wound on the roll. That is, the effectiveness of the oxidizing effect is increased by the combined use of the oxidized compound and ozone, limiting the amount of ozone required (ozone haze concentration). In the present invention, in order to further eliminate the unevenness of the waveform finish, an operation may be added: a second permanent agent having an oxidizing action is applied to the hair in which the disulfide bridges have been rebuilt, to rebuild the bridges even more. This operation can be done in a very short time, only 1 to 3 minutes. Since the purpose of this operation is to further eliminate the finite inequality, the step may be included in the washbasin treatment procedure, where the application time of the second permanent agent is almost nil. The concentration of the compound (s) selected from a group consisting of ascorbic acid, ascorbic acid derivatives and a salt of ascorbic acid is from 0.01 to 1.87 M (0.13 to 24 percent by weight) relative to the intermediate treatment agent. Use of a concentration of less than 0.01 M (0.13 percent by weight) is not recommended since even if dehydroascorbic acid or dehydroascorbic acid salt is produced by oxidation by ozone, the oxidizing effect is unlikely to spread to the hair. A concentration higher than 1.87 M (24 per cent by weight) is not recommended either, since in addition to the risk of saturation of the oxidizing effect of ascorbic acid itself and bleaching action of ascorbic acid, there may be other adverse effects, such as the unevenness of texture and shape of the finished waviness. The reason why the concentration of the ozone haze that comes into contact with the hair and which forms the ozone atmosphere is set at a maximum of 1.0 ppm is related to safety considerations with respect to ozone sprays and to the human body. The lower limit of the concentration used to form the ozone atmosphere can be set to an appropriate level such as 0.05 ppm, for example, based on considerations of the desired waveform finish in the treatment of ozone. permanent, irregularity, etc.

Examples [0024] An embodiment of the permanent treatment method according to the present invention will now be described with reference to the drawings.  This embodiment has been implemented using a new permanent processing apparatus which has a configuration based on the present invention.  We will begin by describing the treatment device for permanent.  With reference to FIG. 1, the permanent treatment apparatus A comprises an apparatus body 1, a helmet 2, an ozone unit 3 and a chemical agent spraying unit 4, and it can be moved freely. with wheels on the lower part.  The apparatus body 1 has a housing 11 which contains a circulating fan 12 composed of a motor and a fan which projects into the helmet 2 of the hot air heated by a heating element, sucks from the air inside the helmet 2 and warms the air, a moisture separator 13 that separates moisture and foreign substances produced during the treatment of permanent, from the hot air sucked by the circulating fan 12, and a device for introducing atmospheric air (not shown) which introduces atmospheric air and the mixture with hot air projected into the helmet 2, to cool it.  The blower 12 projects hot air into the helmet 2 and draws air therefrom through a projection orifice (not shown) and a suction port 12a formed in the housing 11. .  The hot air projected into the helmet 2 is sucked from a roller on which the hair is wound, and to the suction port 12a via a tube attached to the roller and to said suction port. 12a.  Given the flow of hot air in the helmet 2, the preferable configuration is that the suction port 12a is formed on both sides of the upper part of the housing 11, and that the hot air projection orifice ( not shown) is formed in the area between the suction ports 12a in the upper part of the housing 11.  In order to render the temperature in the helmet uniform and the concentration of ozone in the uniform atmosphere, it is also preferable that the area of the hot air discharge orifice has a prescribed surface (for example, 5 to 50 times the area of the suction ports 12a) and is formed in the upper part of the housing 11 between the suction ports 12a.  In the housing 11, a pipe from the heating element to the hot air blowing orifice has a branch from which a pipe is connected to the atmospheric air introduction device.  Through the branch, atmospheric air is mixed with hot air by the drive of a fan provided on the atmospheric air introduction device.  An atmospheric air intake port for introducing air into the atmospheric air introduction device is formed on the side of the housing 11.  Many airflow holes are formed in the circumferential surface of the roll.  This roller is connected to the suction ports 12a by tubes, and the suction by the blower 12 thus produces a negative pressure state in the tube, thus creating a negative pressure state in the roll.  The helmet 2 consists of two separate helmets: a first helmet 21 and a second helmet 22, so as to be open.  The first helmet 21 and the second helmet 22 are coupled to the upper part of the housing 11 by a coupling element.  With this coupling element, the first helmet 21 can be rotated in a direction in which it partially covers the second helmet 22.  The second helmet 22 is provided on the other side of the first helmet and can be rotated, using the coupling element, in a direction in which it partially covers the first helmet 21.  The first and second helmets 21 and 22 may be of any shape to cover a portion of the head, such as a curved, square, hexagonal, etc.  The ozone unit 3, provided on the upper part of the casing 11, is an ozone generator which generates ozone from the oxygen in the atmospheric air, with the aid of a method of electric discharge or ultraviolet radiation or a similar process.  The front of the ozone unit 3 has an ozone projection port 31 which protrudes, through the first helmet 21, into the helmet 2 and can project ozone generated therein.  The ozone spray port 31 is near the hot air blast hole.  The ozone spray port 31 shown in FIG. 1, if round, may have another shape such as a curved, rectangular or oval flattened shape or the like.  The shape chosen for the ozone projection orifice 31 must be a shape that allows the ozone projected by the orifice to be diffused in the helmet 2 by arriving with the hot air projected from the orifice hot air projection.  This means that an ozone atmosphere having a uniform concentration is formed in the helmet 2 by the ozone generated by the ozone unit 3 by arriving efficiently with the hot air projected by a relatively large surface area. the hot air projection hole located nearby.  The state of diffusion of ozone can be used to form an ozone atmosphere with a uniform concentration that does not exceed 1.0 ppm in the helmet 2.  If the supply of ozone from the ozone unit 3 is stopped, the ozone contained in the helmet 2 decomposes rapidly by autolysis and disappears.  The amount of ozone provided by the ozone unit 3 can be controlled to appropriately regulate the concentration of the ozone atmosphere in the helmet 2.  The chemical agent spraying unit 4 consists of a chemical agent atomizing container which receives a chemical agent consisting of the intermediate treatment agent containing the compound or two or more compounds selected from the group consisting of ascorbic acid, ascorbic acid derivatives and a salt of ascorbic acid and having an atomization structure using ultrasound or a similar device for atomising the chemical agent, of a spray element chemical agent 42 which moves inside the helmet 2 so that the hair is uniformly exposed to a spray of chemical agent sprayed by the chemical agent atomization container 41, a fan 43 which projecting on the agent spraying element 42, from the chemical agent spraying container 41, the atomized chemical agent, and a motor 44 which submits the agent spraying element 42 to a spraying agent 42, movement of back and forth along the inner surface of the helmet 2.  [0033] The chemical agent spraying element 42 has a curved cylindrical shape which corresponds to the inner shape of the helmet 2, and several misting holes formed in the surface thereof.  As shown in Figure 1, the reciprocating movement of the element 42 along the inner surface of the helmet 2 is described by the motor 44 integrated in the coupling element of the helmet 2, to the using a toothed element mounted on the motor shaft and a corresponding toothed element fixed to the end portion of the element 42.  In addition to the back-and-forth movement along the inner surface of the helmet 2 (left and right in FIG. 1), the spraying element 42 is able to describe complex movements along the surface. inside the helmet 2 if it is equipped with several joints or similar elements.  The chemical agent is an acid rinsing intermediate treating agent which contains 0.13 to 24 percent by weight of one or two or more compounds selected from the group consisting of ascorbic acid, derived from ascorbic acid and a salt of ascorbic acid.  The amount of spraying of said agent can be suitably adjusted according to the amount of hair that is to be subjected to the treatment for permanent and according to the capillary properties such as firmness or suppleness, etc.  When the intermediate treatment agent does not contain the compound or compounds selected from a group consisting of ascorbic acid, ascorbic acid derivatives and a salt of ascorbic acid, the compound is prepared in the living room just before use, in the form of a powder or the like to provide 0.13 to 24 percent by weight, and after the compound has been applied to the hair, the chemical agent spray unit 4 is actuated to spraying on the hair the intermediate treatment agent not containing the compound.  Although this is not shown, the processing apparatus for permanent A has a control section with an operation display screen and a central unit which displays the duration, the temperature, the number of rollers, the amount of hair, the harmful effects on the hair, the operation of the ozone spray device, the chemical agent spraying, etc.  The control section also has buttons to adjust each display.  When the practitioner actuates the buttons to make the settings, the information is processed by the central unit, and the different types of commands in the processing apparatus for permanent A are executed.  More specifically, there is an ozone control knob which controls the level of ozone concentration by controlling, for example, the current supplied to the ozone unit 3; a spray amount control knob which controls the amount of chemical agent sprayed by the chemical agent spray unit 4; a motor adjustment knob which controls the reciprocating movement of the chemical agent spraying element 42 on the inner surface of the helmet 2; a knob for adjusting the number of rolls on which the hair of a coiffed person is wrapped; a button to adjust the amount of hair of the person; a button to regulate the control of the state of harmful effects on the person's hair, etc.  The actuation of each button causes the corresponding processing time and processing temperature data to be stored in the read-only memory in the control section, and the data is processed by the central processing unit.  If the practitioner wishes, the various settings can be stored in RAM, in the control section.  The control section commands caused by the intervention of the practitioner using the adjustment buttons include the control of the temperature of the heating element, through the start and stop of the heating element, the control of the durations by means of a clock which calculates the times set by the read-only memory, and the control of the hot air flow of the blower and the temperature, thanks to the starting and the shutdown, blower control for the amount of airflow, etc.  The control section also has a start switch to start these commands.  When the headset 2 has a sensor for sensing the temperature, the control section also controls the temperature in the headset and has a switch to start the temperature control.  The control section should also preferably have a security button or the like for a break if something unusual occurs.  The practitioner actuates the different switches for the permanent treatment apparatus to perform a series of permanent treatments.  A series of permanent treatments using the permanent treatment apparatus A will now be described with reference to an example in which the compound contained in the intermediate treatment agent is a salt of the acid. ascorbic.  The practitioner wraps the hair of the person wearing the hair on the roll, applies a first permanent permanent agent to the hair, which has a reducing action, and allows it to rest for a prescribed period in order to dilate and soften the hair.  After confirming the dilation and softening of the hair, the first perming agent that adheres to the hair is rinsed off, the hair is wrung out with a towel and the haired person sits near the permanent treatment apparatus. AT.  It is good, at this time, that the helmet 2 was left open by rotating the first and second helmets 21 and 22 so that they overlap partially.  Once the haired person is seated, the helmets 21 and 22 are rotated to close the helmet 2 and cover the part of the person's head.  The open side of the second helmet 22 corresponding to the side of the person's face is closed with a fabric, which creates conditions in which the inside of the helmet 2 is tight and does not let the hot air out.  In this position, the practitioner actuates the various adjustment buttons of the treatment apparatus for permanent A in order to implement the permanent treatment method of the present invention.  The chemical agent spraying unit 4 is first actuated to move the chemical agent spraying element 42 in the helmet 2 while uniformly spraying the chemical agent on the whole of the hair.  The concentration of ascorbic acid salt in the chemical agent at that time is suitably adjusted from the relationship with the ozone concentration of the ozone atmosphere described later; a reasonable concentration of 0.05 to 0.72 and, for cost reasons, a concentration of 0.05 to 0.36 M is recommended.  The effect of the treatment is given to the hair thanks to the adhesion of the chemical agent on the hair.  Given the weak reducing action exerted by the salt of ascorbic acid, the drying / oxidation step can be started without hindering the rearrangement of the hair molecules.  The practitioner looks at whether the chemical agent adheres to the portion of the hair wound on the back of the roll, relative to the agent spray element 42.  If he sees or sees that the application is uneven, the operation of the chemical agent spraying unit 4 can be located for fine adjustment, to ensure that the chemical agent adheres uniformly to the assembly. hair, or this can be done manually.  The heating with the blower 12 continues and the humidity is maintained for a prescribed time (for example about 3 to 15 minutes) controlled according to the firmness and the amount of hair, etc.. which allows additional adhesion of the chemical agent in the hair wound on the roll.  The blower 12 is controlled to project hot air at the controlled temperature and with the controlled intensity (low or high projection) so that the temperature and atmosphere in the helmet 2 are constant.  In this state, the hair is only heated to the prescribed temperature (preferably 60 degrees or less) and for the prescribed time (which is different depending on the firmness and quantity of the hair, etc.). ), which creates an appropriate state for the rearrangement (polymeric movement) of the molecules in the hair.  [0041] Just as they can be heated by hot air from the blower 12, the hair can be heated by a steam or fog atmosphere using appropriate means.  When using steam or mist for heating, the amount of water to moisten the hair and the temperature can be easily controlled to be within a desirable range, there is little errors 20 and this allows the treatment to permanently act with great ripple efficiency.  As explained above, the processing apparatus for permanent A comprises the various means for controlling temperature and time, and automation is therefore possible.  Manual control can also be used to maintain hair moisture.  [0042] Then, by connecting the roller tube on which the hair is wound and at the suction port 12a, the blower 12 can be used to create a negative pressure in the roll, and the ozone coming from the Ozone unit 3 can be sprayed into the helmet 2 to wrap the entire hair in an ozone atmosphere in which the reconstruction of the disulfide bridges in the hair can be done.  The hot air generated by the blower 12 is projected from an area that occupies a relatively large area on the top of the housing, and when the helmet is in a sealed state, all of the hair is wrapped by the blower. ozone which has a uniform concentration.  The negative internal pressure of the roller therefore increases the efficiency with which the ozone comes into contact with the hair, which makes it possible to use the oxidizing action of the ozone effectively.  The ozone haze can form inside the helmet 2 an ozone atmosphere that has an ozone concentration of 1.0 ppm or less.  This can, however, be suitably controlled by the relationship with ascorbic acid and other contents in the chemical agent.  The salt of ascorbic acid on the hair is oxidized by the ozone atmosphere in the helmet 2, which forms a salt of dehydroascorbic acid, the oxidizing action of which is exerted at that time. here and there, favoring the reconstruction of the disulfide bridges of the hair to which it adheres.  In addition, the oxidizing action of ozone itself promotes the reconstruction of the disulfide bridges of all the hair enveloped by the ozone atmosphere.  The hair is dried by the blower 12, so that the reconstruction of the disulfide bridges progresses in a dry environment.  In addition, as the oxidation progresses in an ozone atmosphere environment, the action spreads evenly to the entire hair.  Finally, after the practitioner has verified that all the hair was sufficiently dried, he or she removes the roller to check the finish.  Then the treatment is given to the person at the sink.  To further eliminate a finite inequality, a second known permanent agent having an oxidative action can be applied to the hair in which the disulfide bridges have been reconstructed for further disulfide bridge reconstruction.  This can be done very quickly, in 1 to 3 minutes only.  Since such an application of the second permagent is included in the treatment procedure, it does not result in substantially no processing time.  The procedure ends with drying and styling the hair.  [0045] The advantage of the present invention over the permanent treatment method disclosed in Patent Document 1 will now be described.  In the permanent treatment method according to the patent document 1, before the application of a second permanent agent and the reconstruction of the disulfide bridges, the hair is heated, dried and brought into a state capable of rearrangement. (polymer movement) hair molecules, in order to increase the ripple efficiency.  But since the reconstruction of the disulfide bridges caused by the second permanent agent progresses in a humid environment, this causes the problem of the difference between wet and dry waveform, i.e. The waving of dried hair is different from that of the treatment process, whereas in the case of the present invention, the hair is heated and dried, which provides a better waving efficiency.  It should be added that with the combined use of dehydroascorbic acid or a similar substance, and ozone, the reconstruction of the disulfide bridges is done in a dry environment, whereby the problem of differences wet / dry.  In addition, because all the hair is wrapped in the ozone atmosphere inside the waterproof helmet, the oxidizing action manifests itself uniformly therein, eliminating the permanent finish inequality. .  The combined use of a salt of dehydroascorbic acid or the like, and ozone, limits the amount of ozone required for the mist (the concentration of the ozone sprayed to come into contact with the atmosphere). the hair).  This allows the ozone concentration at which the practitioner and the haired person are exposed to be maintained at the authorized concentration level recommended by the Japanese Society for Occupational Health, thus ensuring their safety and comfort. and increasing the safety and comfort of the treatment procedure.  In the permanent treatment method of the patent document 1, the person wearing the hat is in particular obliged to keep the same position on his seat during the heating and drying steps of the hair and during the treatment of the hair with the second permanent agent, which is very painful.  In the case of the present invention, on the contrary, the reconstruction of the disulfide bridges takes place during the heating and drying steps of the hair, and in practice the processing step (operation time) which uses the second agent of permanent can be suppressed, which greatly reduces the inconvenience for the person wearing the hat.  This also frees the practitioner, which should allow a significant increase in the effectiveness of the work of the hair salon.  In cases where a second known permanent agent having an oxidizing action is applied to the hair in which the disulfide bridges have been reconstructed, with a view to an additional reconstruction of the disulfide bridges to eliminate the inequality of the finish, this may be included in the treatment procedure performed on the person at the sink, so that it hardly requires a treatment time.  This means that the present invention succeeds in favoring the permanent treatment which offers a better finish, without reducing the performance of the hair salon.  For the permanent treatment method which has been described above, an additional explanation based on the flowcharts of Figures 2 to 4 is given here, concerning the processes that take place once the treatment apparatus for permanent A is operated.  According to FIG. 2, when a switch is actuated for the power supply from an external AC power source, the practitioner actuates the various adjustment buttons on the control section, and the procedure proceeds in the following order: S1 program setting mode for program settings; S2 chemical agent spraying mode for applying to the hair an intermediate treatment agent containing a compound; creep mode S3 (drying step) to adhere the chemical agent (compound) and maintain hair moisture, etc.  ; S4 glass transition mode (oxidation step) in which the reconstruction of the disulfide bridges in the hair is increased by contact with an oxidized compound with ozone haze and ozone, and S5 cooling mode to cool the hair .  First, in the program setting mode Si, the practitioner uses the various switches provided on the control section to make the program settings such as the number of rolls (step S11), the level of degradation. hair (step S12) and the amount of hair (step S13).  When done, the clock, the temperature, the blower power, the concentration and the ozone level and the amount of chemical agent spray, including the movements of the chemical agent spray element 42, which each correspond to the conditions set by the control section, are read from the ROM and the modes are set (step S14).  The central unit integrated in the control section switches to the chemical agent spraying mode S2 shown in FIG. 3 and checks whether or not the practitioner has actuated the switch to start the chemical agent spraying (S21).  If it is determined that the switch has been operated, the clock set in the program setting mode S1 starts (step S22).  At the same time as the start of the clock during step S22, the chemical agent spraying element 42 of the permanent treatment apparatus A is used to project a controlled quantity of mist from chemical agent on the hair (step S23).  Since the amount of spraying is regulated by the amount of hair, the level of degradation and the number of rolls set in the program setting mode Sl, the amount of adhesion of the chemical agent is also optimal.  Then, the central unit sees if the clock started during step S22 has reached or not the set duration (step S24).  If it is determined that the set time has been reached, the procedure proceeds to the creep mode S3 shown in Fig. 4, and the CPU sees whether the practitioner has actuated or not the creep start switch (step S31 ).  If it is determined that said start switch has been actuated, the clock starts according to the setting made in the program setting mode S1 (step S32).  At the same time as the start of the clock during step S32, the blower 12 and the atmospheric air introduction device of the treatment device for permanent A are driven, whereby the air is projected from the hot air projection orifice (step S33).  To keep the temperature in the headphones 2 constant, the central unit starts the control of the heating element to bring the hot air to the temperature set in the ROM (step S34).  The temperature sensor is used to control the temperature in the headset 2, and it controls the temperature according to the temperature set in the ROM (step S35).  The CPU then determines whether or not the clock has reached the set time in the ROM (step S36), and if it is determined that the set time has been reached, the procedure proceeds to the glass transition mode S4 shown. in Figure 5.  After the practitioner has connected the tube to the roller, the start switch to start the glass transition will be activated, and it is therefore very important to confirm that the tube is connected to the roller.  As shown in FIG. 5, the central unit sees if the practitioner has actuated or not the switch to start the glass transition (step S41).  If it is determined that said start switch has been actuated, the clock set in the program setting mode S1 starts (step S42).  At the same time as the start of the clock in step S42, the treatment apparatus A again drives the blower 12 and the atmospheric air introduction device to project hot air and suck the air. hot air through the roll on which the hair is wound, to create a negative pressure in the roll (step S43).  At the same time as the start of the operations of step S43, the treatment unit for permanent A discharges ozone from the ozone unit 3, the ozone that arrives with the air hot from the hot air blowing orifice of the blower 12 being diffused uniformly inside the helmet (step S44).  In order to keep the temperature in the helmet 2 constant, the central unit then starts the control of the heating element (step S45), uses the temperature sensor to control the temperature in the helmet 2, and controls the temperature according to the temperature set in the ROM (step S35).  It is then determined whether or not the clock has reached the set duration in the ROM (step S47).  If it is determined that the set time has been reached, the procedure goes to S5 cooling mode.  At this stage, since the inside of the roll is already in a state of negative pressure, the ozone brought into the helmet 2 is sucked through the hair, the oxidizing action of the ozone oxide the hair, the salt of the ascorbic acid contained in the chemical agent applied to the hair is oxidized to form a salt of dehydroascorbic acid which also oxidizes the hair, thus reconstructing the disulfide bridges of the hair.  When the procedure goes to S5 cooling mode, the CPU sees if the practitioner has actuated or not the cooling start switch (step S51).  If it is determined that said switch has been operated, the clock starts according to the setting made in the program setting mode (step S52).  At the same time as the start of operations 5 in step S52, the treatment apparatus for permanent A causes (the supply of the heating element is interrupted) the blower 12 and the device for introducing atmospheric air to draw cold air or projected air from the interior of the roll on which the hair is wound, thereby promoting hair cooling (step S53).  It is then determined whether or not the clock has reached the duration set in the read-only memory (step S54).  If it is determined that the set time has been reached, the series of commands made by the control section is terminated, and the practitioner opens the helmet 2 and removes the hair roll, completing the operation.  [0060] The permanent treatment method just described also promotes creep treatment after the chemical agent has been sprayed onto the hair.  Therefore, since there is no tube connected to the roll, there is no aspiration of the chemical agent from the roll on which the hair is wound.  However, the present invention can also perform the spray treatment of the chemical on the hair after the creep treatment and just prior to the glass transition treatment.  In this case, since during the vitreous transition treatment the tube is connected to the roll, thanks to the spraying of the chemical agent just before the vitreous transition treatment and then to the creation of the pressure state. In the roller, the mist chemical can be uniformly sprayed onto the hair wound on the roll, and effectively adhere to the hair due to the negative pressure in the roll.  In addition, the suction of the negative pressure state in the roll provides hot air in the helmet 2 on the hair, which gives a good finish.  When the state of negative pressure is formed in the roll by connecting the tube to it from the moment the chemical agent is sprayed, the chemical agent is distributed uniformly over the entire hair and can adhere to the hair with good efficiency.  In this case too, the inside of the roll will be in the negative pressure state in the next step, that is, during the creep treatment, the negative pressure state causes the hot air in the headphones 2 and on the hair, which gives a good finish.

Claims (5)

REVENDICATIONS1. A permanent treatment method, characterized in that it comprises the steps of applying a first permanent agent which has a reducing action to dilate and soften the hair wound on a roll, to rinsing out the first agent of permanent, to apply on the hair one or two or more compounds selected from a group consisting of ascorbic acid, an ascorbic acid derivative and a salt of ascorbic acid, and an intermediate treatment agent, to be sprayed ozone on the hair to oxidize the compound, and to use the oxidized compound and ozone to reconstruct the disulfide bridges of the hair. The permanent treatment method according to claim 1, characterized in that the intermediate treatment agent contains a compound having a concentration of 0.13 to 24 percent by weight, and an ozone atmosphere is formed. which contains not more than 1.0 ppm of ozone. 20 3. Treatment method for permanent according to claim 1 or 2, characterized in that during the reconstruction of the disulfide bridges of the hair, the compound adheres to the hair wound on the roll, and the moisture of the hair is maintained while a Heating is applied for a prescribed time, after which a state of negative pressure is established inside the roll, and during the use of a blower for drying, ozone is sprayed to the hair to wrap those in an atmosphere of ozone. 30 4. Process for permanent treatment according to any one of claims 1 to 3, characterized in that the oxidized compound is a dehydroascorbic acid or a salt of dehydroascorbic acid. 5. A permanent treatment method according to any one of claims 1 to 4, characterized in that a second permanent agent having an oxidizing action is applied to the hair in which the disulfide bridges have been reconstructed for further reconstruction. disulfide bridges.