Automatic curler of stereotyping fast
Technical Field
The utility model relates to a hairdressing equipment technical field specifically indicates an automatic curler of stereotyping fast.
Background
The automatic hair curler is a hand-held electronic product for curling hair, and has a handle and a hair curling part for automatically curling hair. The hair curling part of the conventional automatic hair curler usually comprises a heating tube, a hair curling hook and a heat insulation sleeve which are concentrically arranged from inside to outside, the hair curling hook can rotate, one side of the hair curling hook and one side of the heat insulation sleeve are provided with openings for placing hair, and when the automatic hair curling device is used, the hair is placed from the openings of the heat insulation sleeve and then rotates around the heating tube under the driving of the hair curling hook. Such conventional automatic curling irons have problems in use: 1. when the hair rotates along with the hair curling hook, the hair wound on the heating tube can be loosened from the top end of the heating tube, so that the hair cannot reach the necessary heating degree, and the hair curling effect is not ideal; 2. after the hair is heated by the heating tube, the hair needs to be kept in the hair curler for a certain time, and the hair can be taken out after being cooled and shaped, so that the hair curling operation time is longer.
SUMMERY OF THE UTILITY MODEL
The utility model aims at providing an automatic curler that easily operation, and can finalize the design fast, curly hair is effectual.
In order to achieve the above object, the utility model adopts the following technical scheme:
an automatic quick-setting hair curler comprises a handle part and a hair curling part, wherein the hair curling part comprises a heating tube, a hair curling hook and a heat insulation sleeve which are concentrically arranged from inside to outside, one side of the heat insulation sleeve is provided with an opening for putting hair, the hair curling hook can rotate around the axis and has a radial gap space for accommodating the hair with the heating tube, and a stop hook for preventing the hair from loosening from the top end of the gap space is radially extended from the top end of the heating tube; the handle part comprises a shell, a fan assembly, an air inlet and a driving assembly are arranged in the shell and used for driving the hair curling hook to rotate around a shaft, an air outlet is formed in the end face, connected with the hair curling part, of the handle part, and air sent by the fan assembly enters the heat insulation sleeve and the heating tube through the air outlet.
The beneficial effect of above-mentioned scheme lies in: the hair curling device is characterized in that the top end of the heating tube is provided with a stop hook, the upper end of the hair close to the root is limited by the stop hook, the tail end of the hair is driven by the hair curling hook to rotate around the heating tube, and the hair cannot be loosened from the top end of the heating tube in the rotating process due to the stop hook, so that the hair can be better heated around the heating tube, and a better hair curling effect is achieved; set up the air outlet between thermal-insulated sleeve and heating tube, the hair surface after the heating tube heating is cooled off fast by the cold wind that the fan subassembly sent into, can reach the effect of quick design, and curly hair operating time is short, the design effect is more excellent.
According to a preferable scheme, the inner wall of the heat insulation sleeve is provided with a lining which is concentrically arranged, so that a closed cavity is formed between the heat insulation sleeve and the lining, the air outlet is communicated with the bottom of the closed cavity, and a plurality of air blowing holes are distributed in the lining.
In the above scheme, set up the inside lining to set up the blowhole on the inside lining, can make cold wind blow more evenly twine in the hair surface of heating tube, can further improve curly hair efficiency, reach more even design effect.
The utility model provides a preferred scheme, the fender hook including be ox horn shape distribute in two on heating tube top, two the fender hook respectively with thermal-insulated telescopic open-ended both sides correspond, just the fender hook radially surpasss the width in clearance space.
In the above scheme, the stop hooks are arranged on two sides of the opening of the heat insulation sleeve, and the hair curling hook can play a limiting role no matter rotates positively or negatively.
In a preferred embodiment, the hair curling hook has a toothed ring with internal teeth at the bottom thereof, and the driving assembly includes a motor and a gear driven by the motor and engaged with the toothed ring.
In the scheme, the driving assembly of the hair curling hook is simple and reliable in structure.
In a preferred embodiment, the hair curling hook is a semi-circular arc piece, and the axial side edge of the hair curling hook is concave arc, so that the top end part of the hair curling hook is hook-shaped.
In the scheme, the hair curler has a simple profile and is not easy to clamp hair.
In a preferred scheme, the fan assembly comprises fan blades and a motor for driving the fan blades. The shell is also internally provided with a control circuit board, and the outer wall of the shell is provided with a control key.
In the above scheme, structural layout is reasonable, and control button convenient operation.
The utility model provides a preferred scheme, the heating tube includes the circular shape sleeve, and the cross-section is D font and the symmetry sets up two sets of conducting strip, presss from both sides and arranges in two sets of PTC heat-generating body between the conducting strip for detect the NTC temperature controller of heating tube temperature, and the lid is located the heat-proof cover on sleeve top, the hook is integrative to be located on the heat-proof cover.
Among the above-mentioned scheme, heating tube structural configuration is reasonable, and the conducting strip is even to telescopic heating, and the thermal-insulated lid and the fender hook setting at top are safer and easily production equipment.
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 an automatic curling iron according to an embodiment;
FIG. 2 is a schematic view showing an internal structure of the automatic curling iron according to the embodiment;
fig. 3 is an exploded view of the automatic curling iron of the embodiment.
Detailed Description
The invention is further explained below with reference to the drawings:
referring to fig. 1 to 3, a quick-setting automatic curling iron includes a handle portion 1 and a curling portion 2, and the curling portion 2 includes a heating tube 21, a curling hook 22 and a heat insulating sleeve 23 concentrically arranged from the inside to the outside.
An opening 231 for putting hair is arranged at one side of the heat insulation sleeve 23, the hair curling hook 22 can rotate around the axis and has a radial clearance space 24 for accommodating hair with the heating tube 21, and a stop hook 210 for preventing the hair from loosening from the top end of the clearance space 24 extends out of the top end of the heating tube 21 in the radial direction; the handle portion 1 includes a housing 11, a blower assembly 12 and an air inlet 13 are disposed in the housing 11, and a driving assembly 14 is disposed in the housing 11 and drives the hair curling hook 22 to rotate around the shaft, and an air outlet 15 is disposed on a connecting end surface of the handle portion 1 and the hair curling portion 2, and the air outlet 15 allows air sent by the blower assembly 12 to enter between the heat insulation sleeve 23 and the heat generating tube 21.
When the hair curler is used, the hair curler is opened, the tail end of a strand of hair to be curled is pulled by hands, one end of the strand of hair near the root is clamped into the gap space 24 from the opening 231 of the heat insulation sleeve 23, the hair starts to rotate around the heating tube 21 under the driving of the hair curling hook 22, at the moment, the tail end of the hair is loosened, the tail end of the hair enters the gap space 24 and rotates around the heating tube 21 under the driving of the hair curling hook 22, and due to the existence of the gap space 24, the hair is not fixed but relatively rotates with the heating tube 21 and the hair curling hook 22; set up at the heating tube 21 top and keep off hook 210, the hair is spacing by keeping off hook 210 by the upper end of root, and the tail end of hair is driven by curly hair hook 22 and is rotated around heating tube 21, because the effect of keeping off hook 210, the hair can not be followed the heating tube 21 top pine and taken off at the rotation in-process, can be better around heating tube 21 heated to reach better curly hair effect. In the process that the hair is heated by heating tube 21, fan subassembly 12 blows in clearance space 24 with cold wind from air outlet 15 for the hair surface after heating tube 21 heats is cooled off fast by cold wind, can reach the effect of stereotyping fast, and curly hair operating time is short, the effect of stereotyping is more excellent.
In a preferred implementation structure, the inner wall of the heat insulation sleeve 23 has a lining 25 concentrically arranged, so that a closed cavity is formed between the heat insulation sleeve 23 and the lining 25, the air outlet 15 is communicated with the bottom of the closed cavity, and a plurality of air blowing holes 251 are distributed on the lining 25. The lining 25 is arranged, the air blowing holes 251 are formed in the lining 25, cold air enters the closed cavity formed by the heat insulation sleeve 23 and the lining 25 in a surrounding mode, and is evenly blown out from the air outlet holes, the cold air can be evenly blown to the outer surface of the hair wound on the heating tube 21, the heating and cooling time of the hair at each position is consistent, the integral setting time is shortened, the hair curling efficiency can be further improved, and the more even setting effect is achieved.
In a preferred embodiment, the two blocking hooks 210 are disposed at the top end of the heat pipe 21 in a shape of a horn, the two blocking hooks 210 correspond to the two sides of the opening 231 of the heat insulation sleeve 23, and the blocking hooks 210 radially exceed the width of the gap space 24. The stop hooks 210 are arranged on both sides of the opening 231 of the heat insulation sleeve 23, and can play a limiting role no matter the hair curling hook 22 rotates positively and negatively.
In a preferred embodiment, the hair curling hook 22 has a toothed ring 221 with internal teeth at the bottom thereof, and the driving unit 14 includes a motor and a gear driven by the motor and engaged with the toothed ring 221. The motor is fixed at the front end of the handle part 1 through a bracket, the gear is driven by the motor to rotate, and the hair curling hook 22 is driven to rotate through a toothed ring 221 meshed with the gear; the ratio of the inner diameter of the gear ring 221 to the outer diameter of the gear can be set such that the inner diameter of the gear ring 221 is much larger than the outer diameter of the gear, thereby reducing the rotation ratio, and the hair curling hook 22 can rotate slowly to prevent the hair curling hook 22 from being pulled by the hair due to the over-fast rotation speed, so that the driving assembly 14 of the hair curling hook 22 has a simple and reliable structure.
In a preferred embodiment, the hair curling hook 22 is a semi-circular arc piece, and the two axial sides 222 of the hair curling hook 22 are concave arc-shaped, so that the tip end portion of the hair curling hook 22 is hook-shaped. The hair curling hook 22 has a simple profile, is not only simpler to produce, but is also less prone to hair entrapment.
In a preferred embodiment, the fan assembly 12 includes a fan blade and a motor for driving the fan blade, and the air inlets 13 are air inlet mesh holes circumferentially distributed at the tail end of the housing 11. A control circuit board 16 is further arranged in the shell 11, and a control key 17 is arranged on the outer wall of the shell 11. The structure layout is reasonable, and the control key 17 is convenient to operate.
In a preferred embodiment, the heating tube 21 includes a circular sleeve 211, two sets of heat conducting strips 212 symmetrically arranged with a D-shaped cross section, a PTC heating element 213 sandwiched between the two sets of heat conducting strips 212, an NTC temperature controller 214 for detecting the temperature of the heating tube 21, and a heat insulating cover 215 covering the top end of the sleeve 211, and the hook 210 is integrally disposed on the heat insulating cover 215. The PTC heating element 213 is disposed in the center of the two sets of heat conducting strips 212, and the heat is conducted to the sleeve 211 through the D-shaped heat conducting strips 212, so that the heat distribution on the outer wall of the heating tube 21 is uniform, the NTC temperature controller 214 can control the temperature of the heating tube 21 within a set range, and the heat insulating cover 215 and the hook 210 on the top are disposed, thereby being safer and easy to produce and assemble.
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.