CN109929280A - A kind of device for forming hair and its conductive coating materials - Google Patents

Abstract

The invention discloses a kind of device for forming hair and its conductive coating materials, including moulding substrate 30, conductive coating 70 is covered on the moulding substrate 30, the conductive coating 70 is the mixing of one of grapheme material, ceramic material or both, and the thermal conductivity of the conductive coating 70 is 7W/ (mK).Grapheme material used in the present invention has higher intensity and can generate higher thermal coefficient, enables to hair setting device preferably to carry out moulding to hair, and can be improved the service life of equipment.The present invention can be quickly restored to room temperature after heat source is closed or is removed, and when use can be reduced electrostatic.

Description

A kind of device for forming hair and its conductive coating materials

Technical field

The present invention relates to a kind of device, especially a kind of device for forming hair and its conductive coating materials.

Background technique

Compared with the non-coating metal device for forming hair made of the common oily aluminium or titanium, traditional ceramics or resinous coat Styling apparatus has preferably heat dissipation, heat preservation and heat-transfer character, the thermal conductivity of the ceramic coating currently used for molder tool industry For 1.5W/ (mK).

It can be improved the performance of this nonmetallic coating molder tool, by the material of improved coating to reduce electrostatic, burn The burnt, disadvantages such as moulding is slow.

In use, the ceramics of self-heating or resinous coat hair ornamental device, as curler peace scalds device, Ke Nengxu The optimum temperature of hairdo can be heated to by wanting the long period.Once heating, the coating of styling apparatus, the heat of thermal conductivity molding surface are passed It passs unevenly, may cause peak temperature and gap occur.This non-uniform heat distribution will lead to hair quality and be damaged or destroy hair Type at least needs additional hair setting device to remove undesired effect.Using the device for forming hair of external heat source, such as The thermal conducting hair comb for receiving heat from hair dryer, can also damage hair in modeling process.In general, when being heated to When the surface of ceramics or resinous coat, heat remains in the side for directly receiving heat from hair dryer.High temperature may be right Hair causes to damage, it is also possible to cause the deformation of carding comb teeth impaired.Over time, the hair of ceramics and resinous coat is made The situation of type equipment heat transfer unevenness can be further exacerbated by, to further damage hair quality.

Grapheme material has higher intensity and can generate higher thermal coefficient, and hair fixing is enabled to fill It sets and moulding preferably is carried out to hair, and can be improved the service life of equipment.

Room temperature can be quickly restored to after heat source is closed or is removed, and when use can be reduced electrostatic, such hair fixing The conductive coating of device is urgently researched and developed.

Summary of the invention

To solve the above existing problem, the invention discloses a kind of device for forming hair and its conductive coating materials, including Moulding substrate 30, conductive coating 70 is covered on the moulding substrate 30, and the conductive coating 70 is grapheme material, ceramic material The mixing of one of material or both, the thermal conductivity of the conductive coating 70 are 7W/ (mK).

Further, the grapheme material is the mixed of one of graphene nanometer sheet, graphene quantum dot or both It closes.

Further, the graphene nanometer sheet is with a thickness of 1~24nm.

Further, the quality of the graphene nanometer sheet accounts for the 5-10% of 70 mass of conductive coating.

Further, the quality of the graphene quantum dot accounts for the 0.4-12% of 70 mass of conductive coating.

Further, the material of the conductive coating 70 further include antistatic agent, tourmaline, inorganic pigment, in mica powder One or more of mixing；Solvent is the mixture of one or more of acetone, isopropanol, water.

Further, the ceramic material is silica, aluminium oxide, titanium dioxide, zirconium oxide, silicon carbide, oxidation Asia Iron, sodium oxide molybdena, potassium oxide, calcium oxide, mixture one or more in magnesia.

Further, mass fraction of the ceramic material in the conductive coating 70 is 28~56%.

Further, the conductive coating 70 with a thickness of 30-90 microns.

Further, the conductive coating 70 includes laminated coating, and the coating is ceramic material, grapheme material, resists The mixing of one or more of electrostatic agent, paint material, wherein the ceramic material is silica, aluminium oxide, titanium dioxide The mixture of one or more of titanium, zirconium oxide, silicon carbide, ferrous oxide, sodium oxide molybdena, potassium oxide, calcium oxide, magnesia； The thermal conductivity of the grapheme material is 7W/ (mK)；The antistatic agent is one or more mixture；The pigment material Material is one or more mixture.

Further, the device for forming hair further includes handle 20, and the handle 20 is connected with the first arm 48 and second Arm 50, first arm 48 and second arm 50 are connected by the hinge 52 at 20 end of handle；It is first arm 48, described The outside of second arm 50 and the handle 20 close to hinge 52 is covered with shell 22；20 end of handle is extended with power supply Line, the power supply line have plug and are connected to power supply；The position of first arm 48 and second arm 50 engagement has respectively to be added Hot component 34 has the conductive coating 70 in the heating component 34.

Further, the device for forming hair further includes handle 20, and the handle 20 is connected with heating component 34, described Heating component 34 and movable hair clip 54 fit together, and the hair clip 54 is rotationally connected with the heating structure by pin 58 Part 34 is close to one end of the handle 20；The hair clip 54 is equipped with thumb frame 60 close to one end of the handle 20, and the other end is solid It is connected with pedestal 56；56 shape of pedestal and the heating component 34 are corresponding；20 end of handle is extended with power supply line, institute Stating power supply line has plug and is connected to power supply；There is the conductive coating 70 in the heating component 34.

Further, the device for forming hair further includes handle 20, and the handle 20 is connected with head 62, the head 62 and the connection of handle 20 and external covering shell 22；There is heating component 34 inside the head 62, the heating component 34 is wrapped Heating element 64 is included, there is heating coil on the heating element 64, there is the conductive coating 70 on the heating coil surface；It is described 20 end of handle is extended with power supply line, and the power supply line has plug and is connected to power supply.

Further, the device for forming hair includes handle 20, and the handle 20 is connected with barrel portion 32, the gun barrel 32 surface of portion is distributed multiple perforations 40, is equipped with comb teeth 42 in the perforation 40, there is the conductive coating on 32 surface of barrel portion 70, the thermal conductivity of the conductive coating 70 is 7W/ (mK).

The utility model has the advantages that grapheme material used in the present invention has higher intensity and can generate higher thermally conductive system Number enables to hair setting device preferably to carry out moulding to hair, and can be improved the service life of equipment.The present invention Room temperature can be quickly restored to after heat source is closed or is removed, and when use can be reduced electrostatic.

Detailed description of the invention

Fig. 1 is 1 structure chart of embodiment；

Fig. 2 is 1 structure chart of embodiment；

Fig. 3 is 1 structure chart of embodiment；

Fig. 4 is 1 structure chart of embodiment；

Fig. 5 is 1 structure chart of embodiment.

Wherein, styling apparatus 2, round hair comb 4, tack ironing board 6, curler 8, hair dryer 10, handle 20, shell 22, electricity Source line 24, moulding substrate 30, barrel portion 32, heating component 34, perforation 40, comb teeth 42, the first arm 48, the second arm 50, hinge 52, Hair clip 54, pedestal 56, pin 58, thumb frame 60, head 62, heating element 64, heating coil 66, conductive coating 70, graphene Material 72.

Specific embodiment

In conjunction with attached drawing 1~5 and embodiment, the present invention is described in further details.

Embodiment 1

As shown in Fig. 2, a kind of device for forming hair and its conductive coating materials, including moulding substrate 30, the moulding base Conductive coating 70 is covered on plate 30, the conductive coating 70 is grapheme material, and the thermal conductivity of the conductive coating 70 is 7W/ (m·K)。

The material of the conductive coating 70 includes graphene nanometer sheet, antistatic agent, tourmaline, inorganic pigment, mica powder, Solvent is the mixture of isopropanol, water.The conductive coating 70 with a thickness of 80 microns.

The device for forming hair further includes handle 20, and the handle 20 is connected with the first arm 48 and the second arm 50, described First arm 48 and second arm 50 are connected by the hinge 52 at 20 end of handle；First arm 48, second arm 50 And the outside of the handle 20 close to hinge 52 is covered with shell 22；20 end of handle is extended with power supply line, described Power supply line has plug and is connected to power supply；There is heating component at the position of first arm 48 and second arm 50 engagement respectively 34, there is the conductive coating 70 in the heating component 34.

Embodiment 2

As shown in figure 3, a kind of device for forming hair and its conductive coating materials, including moulding substrate 30, the moulding base Conductive coating 70 is covered on plate 30, the conductive coating 70 is the mixture of grapheme material, ceramic material, the conductive painting The thermal conductivity of layer 70 is 7W/ (mK).

Further, the material of the conductive coating 70 is the ceramic material, including silica, aluminium oxide, dioxy Change titanium, zirconium oxide, silicon carbide, ferrous oxide, sodium oxide molybdena, potassium oxide, calcium oxide, magnesia, further includes antistatic agent, solvent is Acetone.Mass fraction of the ceramic material in the conductive coating 70 is 50%.The conductive coating 70 with a thickness of 60 Micron.

The device for forming hair further includes handle 20, and the handle 20 is connected with heating component 34, the heating component 34 and movable hair clip 54 fit together, to be rotationally connected with the heating component 34 close by pin 58 for the hair clip 54 One end of the handle 20；The hair clip 54 is equipped with thumb frame 60 close to one end of the handle 20, and the other end is fixed with pedestal 56；56 shape of pedestal and the heating component 34 are corresponding；20 end of handle is extended with power supply line, the power supply line There is plug and is connected to power supply；There is the conductive coating 70 in the heating component 34.

Embodiment 3

As shown in figure 4, a kind of device for forming hair and its conductive coating materials, including moulding substrate 30, the moulding base Conductive coating 70 is covered on plate 30, the conductive coating 70 is the mixture of both grapheme material, ceramic material, described to lead The thermal conductivity of electrocoat 70 is 7W/ (mK).

The material of the conductive coating 70 includes graphene quantum dot, antistatic agent, tourmaline, inorganic pigment, and solvent is Acetone, further includes the ceramic material, and the ceramic material is silica, aluminium oxide, titanium dioxide, zirconium oxide, silicon carbide Mixture.

Mass fraction of the ceramic material in the conductive coating 70 is 42%.

The conductive coating 70 with a thickness of 700 microns.

The device for forming hair further includes handle 20, and the handle 20 is connected with head 62, the head 62 and handle 20 connections and external covering shell 22；There is heating component 34 inside the head 62, the heating component 34 includes heating unit Part 64 has heating coil on the heating element 64, and there is the conductive coating 70 on the heating coil surface；20 end of handle End is extended with power supply line, and the power supply line has plug and is connected to power supply.

Embodiment 4

As shown in Figure 1, a kind of device for forming hair and its conductive coating materials, including moulding substrate 30, the moulding base Conductive coating 70 is covered on plate 30, the conductive coating 70 is the mixing of both grapheme material, ceramic material, the conduction The thermal conductivity of coating 70 is 7W/ (mK).

The material of the conductive coating 70 includes graphene nanometer sheet, tourmaline, mica powder；Solvent is isopropanol；Also wrap Include the ceramic material, the ceramic material be silica, titanium dioxide, zirconium oxide, silicon carbide, ferrous oxide calcium oxide, The mixture of magnesia.Mass fraction of the ceramic material in the conductive coating 70 is 30%.

The conductive coating 70 with a thickness of 90 microns.

The device for forming hair includes handle 20, and the handle 20 is connected with barrel portion 32,32 surface of barrel portion Multiple perforations 40 are distributed, are equipped with comb teeth 42 in the perforation 40, there is the conductive coating 70 on 32 surface of barrel portion, described to lead The thermal conductivity of electrocoat 70 is 7W/ (mK).

As shown in figure 5, a kind of device for forming hair and its conductive coating materials, including moulding substrate 30, the moulding base 30 bottom of plate is heating component 34, and conductive coating 70 is covered on the moulding substrate 30, and the conductive coating 70 is graphene Material 72.

The coating that the conductive coating is coated on moulding substrate may include one or more ceramic materials, one or more Grapheme material, one or more antistatic agents, one or more paint materials, one or more solvents, or combinations thereof object.It should Any method disclosed by the invention can be used applied to base moulding material in coating, including spraying, japanning, brushing, dipping, rolling, Air knife application, curtain coating immerse technology.Spraying technology include aerial spraying, high volume low pressure (HVLP) spraying, air it is auxiliary It helps, without air or electrostatic atomization.

Before safety operation (for example, destroying coating), solidification may carry out at least 2 hours at room temperature, and may Need additional 24 hours or longer, 36 hours or longer, 48 hours or longer time can just be fully cured.It is coated in sizing base Coating material solidified thickness on plate is 30-90 microns best.Coating may contain one or more solvents, such as alcohol or water, one All solidification process of denier are completed, these solvents may be evaporated from coating.

Above-mentioned specific embodiment be only to clearly illustrate example of the present invention, and not to embodiment It limits.For those of ordinary skill in the art, other different forms can also be made on the basis of the above description Variation or variation, there is no necessity and possibility to exhaust all the enbodiments, and thus amplifies out apparent Variation or change still in protection scope of the present invention.

Claims (10)

1. a kind of device for forming hair and its conductive coating materials, which is characterized in that including moulding substrate 30, the moulding substrate Conductive coating 70 is covered on 30, the conductive coating 70 is the mixing of one of grapheme material, ceramic material or both, The thermal conductivity of the conductive coating 70 is 7W/ (mK).

2. a kind of device for forming hair according to claim 1 and its conductive coating materials, which is characterized in that the graphite Alkene material is the mixing of one of graphene nanometer sheet, graphene quantum dot or both.

3. a kind of device for forming hair according to claim 2 and its conductive coating materials, which is characterized in that the graphite Alkene nanometer sheet thickness is 1~24nm.

4. a kind of device for forming hair according to claim 2 and its conductive coating materials, which is characterized in that the graphite The quality of alkene nanometer sheet accounts for the 5-10% of 70 mass of conductive coating.

5. a kind of device for forming hair according to claim 2 and its conductive coating materials, which is characterized in that the graphite The quality of alkene quantum dot accounts for the 0.4-12% of 70 mass of conductive coating.

6. a kind of device for forming hair according to claim 1 and its conductive coating materials, which is characterized in that the conduction The material of coating 70 further includes the mixing of one or more of antistatic agent, tourmaline, inorganic pigment, mica powder；Solvent is The mixture of one or more of acetone, isopropanol, water.

7. a kind of device for forming hair according to claim 1 and its conductive coating materials, which is characterized in that the ceramics Material is silica, aluminium oxide, titanium dioxide, zirconium oxide, silicon carbide, ferrous oxide, sodium oxide molybdena, potassium oxide, calcium oxide, oxygen Change mixture one or more in magnesium.

8. a kind of device for forming hair according to claim 1 and its conductive coating materials, which is characterized in that the ceramics Mass fraction of the material in the conductive coating 70 is 28~56%.

9. a kind of device for forming hair according to claim 1 and its conductive coating materials, which is characterized in that the conduction Coating 70 with a thickness of 30-90 microns.

10. a kind of described in any item device for forming hair and its conductive coating materials, feature exist according to claim 1~9 In the conductive coating 70 includes laminated coating, and the coating is ceramic material, grapheme material, antistatic agent, paint material One or more of mixing, wherein the ceramic material be silica, aluminium oxide, titanium dioxide, zirconium oxide, carbonization The mixture of one or more of silicon, ferrous oxide, sodium oxide molybdena, potassium oxide, calcium oxide, magnesia；The grapheme material Thermal conductivity be 7W/ (mK)；The antistatic agent is one or more mixture；The paint material is one or more Mixture.