Automatic hair curling rod
Technical Field
The utility model relates to a hairdressing equipment technical field specifically indicates an automatic curly hair stick.
Background
The hair curling rod is a handheld electronic product used for curling hair, mainly comprises a grab handle and a heating rod, and is used for winding the hair on the heating rod and curling the hair by heating the surface of the heating rod. In order to facilitate the use, an automatic hair curling rod with a heating rod capable of rotating around a shaft appears, and when hair is wound on the surface of the heating rod, the heating rod automatically rotates to wind the hair without rotating by hands. On one hand, when in hair curling, one hand is needed to hold the handle of the hair curling rod, and the other hand is used for assisting in fixing hair on the heating rod, so that personal operation is difficult; on the other hand, when the hair twines and heats on the stick that generates heat, the hair that pastes tight stick surface that generates heat heats sooner, and the hair that does not trigger the hot plate then heats more slowly, leads to being heated unevenly, and not only the curly hair time is longer, and the effect of curling hair is not even enough moreover.
SUMMERY OF THE UTILITY MODEL
The utility model aims at providing an automatic curly hair stick that use is more convenient, the curly hair time is fast and the effect is better.
In order to achieve the above object, the utility model adopts the following technical scheme:
an automatic hair curling rod comprises a handle part and a hair curling part, wherein the hair curling part comprises a cylindrical heat conductor with radial heat conduction fins, a heating assembly fixed on the heat conductor, a heat conduction pipe sleeved on the outer wall of the heat conductor and a hair planting strip fixed on the heat conduction fins, hair planting comb teeth are arranged on the hair planting strip, and the heat conduction pipe is provided with comb tooth holes for the hair planting comb teeth to pass through and an air outlet; the handle part comprises a shell, a fan assembly and an air inlet are arranged in the shell, the handle part is provided with an air outlet communicated with the space between adjacent heat-conducting fins, and a driving motor for driving the hair curling part to rotate around a shaft is further arranged in the shell.
The beneficial effect of above-mentioned scheme lies in: the hair planting comb teeth are arranged, hair can be wound and fixed on the surface of the heat conduction pipe through hair planting, the hair curling part can automatically rotate without assistance of hands, and the hair planting comb teeth are very suitable for personal use and can rub the hair, so that the hair is nursed and becomes more flexible in the rotating process of the hair curling part; and after the fan assembly blows wind into the gap space of the heat conduction fins, the wind is heated by the heat conduction fins, so that the hot wind is blown out from the air outlet holes on the surface of the heat conduction pipe, the hot wind can uniformly heat hair, the hair which is not tightly attached to the surface of the heat conduction pipe can also be rapidly heated and curled, the heating time for curling hair can be shortened, and the hair curling effect is more uniform.
In a preferable scheme, the hair planting comb teeth are spirally distributed on the outer wall of the hair curling part along the axial direction.
In this scheme, the planting hair broach is the heliciform and distributes, but the hair curling part autogiration in addition, and the limited planting hair broach quantity of accessible reaches the effect of intensive even winding hair, and the remaining space in heat pipe surface can not only make more hair laminating heats simultaneously, conveniently sets up the exhaust vent in addition evenly densely.
In a preferred scheme, the heat conductor is a metal extruded section, and the axis of the heat conductor is provided with an installation cavity for installing the heating component; and a fixing groove for clamping and fixing the wool-planting strip is arranged between every two adjacent heat conduction fins.
In the scheme, the installation cavity can be used for installing and fixing the heating component, and heat can be more uniformly and radially conducted to the heat conduction pipe through the heat conduction fins; the fixing groove is convenient for mounting and fixing the fixed planting wool tops; the structure of the heat conductor is suitable for extrusion molding, and the production cost can be greatly reduced.
According to the preferable scheme, the wool planting strips are provided with through holes corresponding to the air outlets, and the aperture of each through hole is larger than the air outlet.
In the scheme, hot air in the space between the adjacent heat conduction fins can be blown out from the air outlet through the holes, and when the aperture of the through hole is larger than that of the air outlet, the air flow can be pressurized, so that the effect of blowing out the hot air is enhanced.
In a preferable scheme, the aperture of the comb tooth hole is larger than that of the hair planting comb tooth.
In this scheme, the broach hole is when big than planting the hair broach, can avoid planting the hair broach and contact the heat pipe and harm.
According to a preferable scheme, the heating assembly comprises a PTC heating body arranged in the installation cavity and an NTC temperature controller used for detecting the temperature of the heat conductor.
In the scheme, the PTC heating body is small in size and convenient to install, and the NTC temperature controller can ensure the stability of temperature and improve the use safety.
According to a preferable scheme, the fan assembly comprises a fan blade and a motor for driving the fan blade, and the air inlet is a plurality of air inlets which are formed in the tail end of the handle portion and distributed around the handle portion.
In a preferable scheme, a control circuit board is further arranged in the shell, and a control key is arranged on the outer wall of the shell.
Drawings
The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.
FIG. 1 is a schematic view showing the overall structure of a curling iron according to an embodiment;
FIG. 2 is an exploded view of the curling iron of FIG. 1;
fig. 3 is a schematic view illustrating an inner structure of the hair curling portion of fig. 1.
Detailed Description
The invention is further explained below with reference to the drawings:
referring to fig. 1 to 3, an automatic curling iron comprises a handle part 1 and a curling part 2 which are coaxially arranged, and the curling part 2 can rotate around a shaft.
The hair curling part 2 comprises a cylindrical heat conductor 21 with radial heat conduction fins 211, a heating component 22 fixed on the heat conductor 21, a heat conduction pipe 23 sleeved on the outer wall of the heat conductor 21 and a hair planting strip 24 fixed on the heat conduction fins 211, hair planting comb teeth 241 are arranged on the hair planting strip 24, and the heat conduction pipe 23 is provided with comb teeth holes 231 for the hair planting comb teeth 241 to pass through and an air outlet 232. The handle portion 1 comprises a housing 11, a fan assembly 12 and an air inlet 13 are arranged in the housing 11, the handle portion 1 is provided with an air outlet communicated with the space between adjacent heat-conducting fins 211, and a driving motor 14 for driving the hair curling portion 2 to rotate around a shaft is further arranged in the housing 11.
When in use, the hair curling part 2 rotates around the shaft under the driving of the driving motor 14, and after the hair planting comb teeth 241 contact the hair, the hair clip can be placed in the hair planting bundle, and the hair planting bundle is wound on the surface of the heat conducting pipe 23 through the friction force of the hair planting, so that the hair can be operated by one hand; the hot air is blown out from the air outlet 232 at the same time, so that the hair is heated uniformly and rapidly. The hair planting comb teeth 241 are arranged, hair can be wound and fixed on the surface of the heat conduction pipe 23 through hair planting, the hair curling part 2 can automatically rotate without assistance of hands, the hair planting comb teeth are very suitable for personal use, and the hair can be rubbed through hair planting, so that the hair can be nursed and becomes more flexible in the rotating process of the hair curling part 2; and fan subassembly 12 blows wind into the clearance space of heat conduction fin 211, is heated by heat conduction fin 211, makes hot-blast air outlet 232 from the heat conduction pipe 23 surface blow out, and hot-blast ability even heating hair makes the hair that does not paste tight heat conduction pipe 23 surface also can the rapid heating curl, can not only reduce the heating time of curly hair, makes the effect of curling hair more even moreover.
In a preferred embodiment, the heat conductor 21 is made of a metal extrusion, and the axis thereof is provided with a mounting cavity 212 for mounting the heat generating component 22; the two adjacent heat conduction fins 211 form fixing grooves for clamping and fixing the hair-planting strips 24 through the laterally extending hook portions 2111, the hair-planting strips 24 are provided with through holes 242 corresponding to the air outlet holes 232, the aperture of each through hole 242 is larger than that of each air outlet hole 232, a gap is reserved between the two opposite hook portions 2111, and hot air can be blown out radially from the inner diameter of each through hole 242. The mounting cavity 212 can be used for mounting and fixing the heating component 22, and heat can be more uniformly transferred to the heat conduction pipe 23 through the heat conduction fins 211 in the radial direction; the fixing grooves are convenient for installing and fixing the fixed planting wool tops 24; this structure of the heat conductor 21 is suitable for extrusion molding, and the production cost thereof can be greatly reduced. The hot air in the space between the adjacent heat conduction fins 211 can be blown out from the air outlet 232 through the through holes 242, and when the aperture of the through holes 242 is larger than that of the air outlet 232, the air flow can be pressurized, and the effect of blowing out the hot air is enhanced. Of course, the heat conductor 21 may be formed by other methods, such as turning and milling or die casting, but the achievement is high; the wool-planting strips 24 can also be fixed on the heat-conducting fins 211 on one side in a locking mode and the like, so that a hot air blowing channel is left on the other side, but the installation and the fixation are complex and the occupied space is large.
In a preferred embodiment, the hair-planting comb teeth 241 are spirally distributed on the outer wall of the hair curling portion 2 along the axial direction. And the aperture of the comb tooth hole 231 is larger than the hair planting comb teeth 241.
Plant hair broach 241 and be the heliciform and distribute, but the curling part 2 autogiration in addition, the limited effect that plants hair broach 241 quantity of accessible reaches intensive even winding hair, and the remaining space in heat pipe 23 surface can not only make more hair laminating heats simultaneously, conveniently sets up exhaust vent 232 in addition evenly densely. When the comb tooth hole 231 is larger than the bristle-planting comb tooth 241, the damage of the bristle-planting comb tooth 241 contacting the heat pipe 23 can be avoided.
In a preferred embodiment, the heat generating component 22 includes a PTC heater 221 disposed in the mounting cavity 212, and an NTC temperature controller 222 for detecting the temperature of the heat conductor 21. The PTC heating element 221 has a small volume and is convenient to install, and the NTC temperature controller 222 can ensure the temperature stability and improve the use safety.
In a preferred implementation structure, the fan assembly 12 includes a fan blade 121 and a motor 122 for driving the fan blade 121, and the air inlet 13 is a plurality of air inlets distributed around the tail end of the handle portion 1. A control circuit board is further arranged in the shell 11, and a control key 151 is arranged on the outer wall of the shell 11. The electric connection between the handle part 1 and the hair curling part 2 can be a contact type rotating electric connection structure, so that the electric connection can be maintained during the relative rotation.
The above description is not intended to limit the technical scope of the present invention, and any modifications, equivalent changes and modifications made to the above embodiments according to the technical spirit of the present invention are all within the scope of the technical solution of the present invention.