Disclosure of Invention
Aiming at the problems in the prior art, the head of the molding device with the curved and straight hair conversion function is provided, the molding device has two functions of straight hair and wave curve molding, and the two functions are switchable, so that the demand of straight hair in the life of people can be met, the demand of people on the wave curve molding can also be met, one machine has multiple purposes, the cost is reduced, the use is more convenient, the carrying of equipment of multiple different types can be avoided, and the portability is higher.
The specific technical scheme is as follows:
a styler with a head having a hair bend and straight transition, characterized in that it comprises: an upper handle, a lower handle, a control component, a modeling component and a power supply structure, wherein,
the upper handle and the lower handle comprise a working end and a hinged end, the hinged ends of the upper handle and the lower handle are mutually hinged, and a power supply structure is arranged at the hinged end of the upper handle or the lower handle;
the control assembly is arranged in the upper handle and is electrically connected with the power supply structure;
the modeling component is arranged in the working ends of the upper handle and the lower handle, and the modeling component in the upper handle and the modeling component in the lower handle are arranged oppositely;
the molding assembly comprises a heating assembly, a conversion knob, a reset spring, a conversion support, a connecting sleeve and a heat insulation sleeve, the heating assembly is in a rectangular arrangement, one end face of the heating assembly is a plane, the heating assembly is provided with a wavy bending arrangement opposite to the plane, the two ends of the heating assembly are provided with the heat insulation sleeve, a rotating shaft is arranged on the heat insulation sleeve, a connecting sleeve is sleeved on the rotating shaft of the heat insulation sleeve deviating from one side of the hinged end, meanwhile, the connecting sleeve is inserted on the conversion support, the conversion support is placed in the conversion knob, the connecting sleeve is fixed on the conversion knob through a screw, and a reset spring is arranged between the conversion knob and the conversion support.
Foretell head has molding ware of bent straight hair conversion, wherein, control assembly includes control panel, display lamp, regulating switch and switch, and the control panel sets up in the hinged end of last handle, and display lamp, regulating switch and switch all connect electrically on the control panel, and simultaneously, regulating switch and switch all outstanding in the outer wall setting of last handle.
The molding device with the head capable of converting bent hair and straight hair further comprises a protective cover, wherein the protective cover is arranged on the upper handle and the lower handle in a covering mode, and the protective cover is located on one side, away from the other heating component, of the heating component.
The modeling device with the head capable of converting bent and straight hair is characterized in that a limiting bone is arranged on the rotating shaft of the heat insulation sleeve on one side of the heating component close to the hinged end in a protruding mode along the radial direction of the rotating shaft.
The head of the modeling device with the bent and straight hair conversion function is provided with the heat insulation sleeve, wherein the cross section of the rotating shaft of the heat insulation sleeve on one side of the heating assembly, which is far away from the hinged end, is in a regular hexagon shape, and the heat insulation sleeve is provided with the groove.
The molding device with the head capable of realizing the curved-straight hair conversion is characterized in that the connecting sleeve is arranged in a cylindrical shape, the hollow cross section of the connecting sleeve is arranged in a regular hexagon shape, and the outer wall of the connecting sleeve, which is far away from one end where the rotating shaft is sleeved, is provided with the protruding clamping block.
The molding device with the head capable of realizing the hair bending and straightening conversion is characterized in that one side, close to the connecting sleeve, of the conversion support is provided with a through slot, one end, provided with the clamping block, of the connecting sleeve is inserted into the slot, meanwhile, the side, located at the slot, of the conversion support is provided with a protruding rib, and the protruding rib can be selectively inserted into the groove.
Foretell head has molding ware of bent straight hair conversion, wherein, be provided with the trough of belt cardboard in the conversion knob, the fixture block card on the adapter sleeve is located the inslot of trough of belt cardboard.
The molding device with the head capable of realizing the bending and straightening conversion is characterized in that the inner wall of the slot is provided with a through groove which is formed along the length direction of the slot, and the size of the through groove is consistent with that of the clamping block.
The head has molding device of conversion of bent hair and straight hair, wherein, the upper handle and the lower handle further comprise a limiting stop pin, the limiting stop pin is arranged in the working end and is positioned at one side close to the hinged end, the limiting stop pin is arranged at two sides of the rotating shaft with limiting bones, and when the limiting stop pin at one side is contacted with the limiting bones on the rotating shaft, the limiting stop pin at the other side is contacted with the limiting bones after the rotating shaft rotates 180 degrees.
The positive effects of the technical scheme are as follows:
the modeling device with the head capable of converting bent and straight hair realizes that the same modeling component can be provided with two hair modeling structures by arranging the heating component with one plane and the other wave-shaped bending structure, so that the modeling component can have two functions of straight hair modeling and wave curve modeling when being rotated, one machine has multiple purposes, the cost is reduced, the use is more convenient, the applicability of the modeling device is improved, meanwhile, the problem that equipment of multiple machine types is carried when the device is going out can be avoided, and the portability is higher; in addition, the structure comprising the conversion bracket, the connecting sleeve, the conversion button, the reset spring and the like is arranged, so that the heating component can rotate only when the conversion button is pulled out, and the reset locking is realized through the reset spring when the conversion button is released, the risk of the mistaken rotation of the heating component in the use process is prevented, and the safety and the reliability are improved; and be provided with spacing bone in the pivot of the radiation shield of heating element's one end, and go up and be provided with spacing cotter in the handle and the lower handle come with spacing bone cooperation, limited heating element's turned angle and direction to prevent excessively to rotate heating element and lead to connecting wire cracked risk, the safety guarantee nature is higher.
Detailed Description
In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the following embodiments are specifically described with reference to fig. 1 to 5, but the following contents are not intended to limit the present invention.
FIG. 1 is a block diagram of an embodiment of a styling device with hair styling capability for changing between straight and curved heads; fig. 2 is an exploded view of a molding machine according to a preferred embodiment of the present invention. As shown in fig. 1 and 2, the present embodiment provides a head styling device with hair curling and hair straightening functions, which includes: the upper handle 1 and the lower handle 2 respectively comprise a working end 11 and a hinged end 12, the hinged ends 12 of the upper handle 1 and the lower handle 2 are hinged with each other, the power supply structure 5 is arranged at the hinged end 12 of the upper handle 1 or the lower handle 2, meanwhile, the control component 3 is arranged in the upper handle 1 and the control component 3 is electrically connected with the power supply structure 5, in addition, the modeling component 4 is arranged in the working end 11 of the upper handle 1 and the lower handle 2, and the modeling component 4 in the upper handle 1 and the modeling component 4 in the lower handle 2 are oppositely arranged, so that when the upper handle 1 and the lower handle 2 are clamped, the modeling component 4 in the upper handle 1 can be attached to the modeling component 4 in the lower handle 2 to realize the modeling of hair, in addition, the control component 3 is electrically connected to the modeling component 4, the power supply structure 5 supplies electric energy, and the control component 3 realizes the adjustment and control of the modeling component 4, so that the modeling device is suitable for the personalized modeling requirements of different ages and different regions, and has higher adaptability.
Fig. 3 is an exploded view of a perspective of a molding assembly in accordance with a preferred embodiment of the present invention; fig. 4 is an exploded view of another perspective of a molding assembly in accordance with a preferred embodiment of the present invention. As shown in fig. 1, fig. 2, fig. 3 and fig. 4, the modeling assembly 4 further includes a heating assembly 41, a conversion knob 42, a return spring 43, a conversion support 44, a connection sleeve 45 and a heat insulation sleeve 46, the heating assembly 41 is arranged in a rectangular shape, one end surface of the heating assembly 41 is a plane, the opposite surface of the heating assembly 41 to the plane is arranged in a wave-shaped bending manner, so that when the heating assembly 41 is turned over, different modeling structures can be switched, thereby meeting different modeling requirements, and the modeling device has two functions of straight-hair modeling and wave-curve modeling, thereby achieving multiple purposes, reducing cost, being more convenient to use, and improving applicability of the modeling device. Moreover, the heat insulation sleeves 46 are respectively arranged at the two ends of the heating assembly 41, the heat insulation sleeve 46 is provided with a rotating shaft 461, the heating assembly 41 is arranged in the upper handle 1 and the lower handle 2 through the rotating shaft 461, meanwhile, a connecting sleeve 45 is sleeved on the rotating shaft 461 of the heat insulation sleeve 46 at the side of the heating assembly 41 departing from the hinged end 12, meanwhile, the connecting sleeve 45 is inserted on the conversion support 44, the rotation of the heating assembly 41 is realized through rotating the connecting sleeve 45, the conversion support 44 is arranged in the conversion knob 42, thereby realizing the rotation of the heating assembly 41 through rotating the conversion knob 42, meanwhile, the conversion knob 42 is arranged at the side of the working end 11 of the upper handle 1 and the lower handle 2 departing from the hinged end 12, thereby facilitating the user to rotate the conversion knob 42 to realize the conversion of the modeling function, and the connecting sleeve 45 is fixed on the conversion knob 42 through a screw 47, it can rotate adapter sleeve 45 to have further guaranteed to rotate conversion knob 42, thereby realize the rotation to heating element 41, and be provided with reset spring 43 between conversion knob 42 and the conversion support 44, it can only drive adapter sleeve 45 and rotate heating element 41 when pulling out conversion knob 42 to have guaranteed through reset spring 43, realize the function switching, and when releasing conversion knob 42, reset spring 43 can reset conversion support 44 and block heating element 41 through conversion support 44, thereby prevented in the use, heating element 41 rotates by mistake and the potential safety hazard that leads to, structural stability is good, the safety guarantee nature is higher.
Specifically, the control assembly 3 disposed in the upper handle 1 further includes a control panel 31, a display lamp 32, an adjusting switch 33 and a power switch 34, the control panel 31 is disposed in the hinged end 12 of the upper handle 1, so as to be controlled and adjusted when being held by a user, and the display lamp 32, the adjusting switch 33 and the power switch 34 are electrically connected to the control panel 31, and meanwhile, the adjusting switch 33 and the power switch 34 are both protruded out of the outer wall of the upper handle 1, thereby realizing on-off control of the circuit through the power switch 34, improving the safety of the molding machine, and realizing control of the molding assemblies 4 such as the heating assembly 41 through the adjusting switch 33, so that the molding function can adapt to the personalized use requirements of users in different areas and ages, and the adaptability is higher, and the current state of the molding machine is displayed through the display lamp 32, and the adjustment degree is fed back to the user, the best modeling effect is convenient to achieve, and the method is more humanized.
More specifically, all still be provided with a protective cover 13 on last handle 1 and lower handle 2, and protective cover 13 lid is located on last handle 1 and lower handle 2, make between protective cover 13 and last handle 1 and the lower handle 2 be connected for dismantling, and protective cover 13 is located one side that heating element 41 deviates from another heating element 41, make when heating element 41 switches the molding function need to be rotated, need pull down protective cover 13 from corresponding last handle 1 and lower handle 2 earlier, can not only improve the aesthetic property of molding device, also can prevent heating element 41 scald user's problem in the use simultaneously, the safety guarantee nature is higher, and can not hinder the switching of molding function, and the structure is more reasonable.
More specifically, the rotating shaft 461 of the heat insulating sleeve 46 on the heating element 41 and on the side close to the hinged end 12 is provided with a limit bone 4611 protruding along the radial direction, meanwhile, the upper handle 1 and the lower handle 2 further comprise a limit stop pin 14, the limit stop pin 14 is arranged in the working end 11 and on the side close to the hinged end 12, the limit stop pin 14 is arranged on both sides of the rotating shaft 461 with the limit bone 4611, and when the limit stop pin 14 on one side contacts the limit bone 4611 on the rotating shaft 461, the limit stop pin 14 on the other side needs to contact the limit bone 4611 after the rotating shaft 461 with the limit bone 4611 rotates 180 degrees, so that the rotation range of the heating element 41 is limited within the range of 180 degrees, thereby realizing the conversion from the hair curling function to the hair straightening function, thereby preventing the problem of the damage of the connecting wires caused by over-rotating the heating element 41, and having higher safety guarantee, the structure is more reasonable.
More specifically, the cross section of the rotating shaft 461 of the heat insulating sleeve 46 on the heating assembly 41 and on the side away from the hinged end 12 is in the regular hexagon shape, and the groove 462 is formed in the heat insulating sleeve 46, meanwhile, the connecting sleeve 45 is in the cylindrical shape, and the hollow cross section of the connecting sleeve 45 is in the regular hexagon shape, so that when the connecting sleeve 45 is sleeved on the rotating shaft 461 of the heat insulating sleeve 46, the rotating shaft 461 of the regular hexagon and the hollow fit of the regular hexagon of the connecting sleeve 45, so that the connecting sleeve 45 can better drive the heat insulating sleeve 46 to rotate, thereby realizing the rotation of the heating assembly 41, and further improving the switching stability of the functions. In addition, a through slot 441 is disposed on one side of the converting bracket 44 close to the connecting sleeve 45, and one end of the connecting sleeve 45, which is provided with the fixture block 451, is inserted into the slot 441, such that the end of the connecting sleeve 45, which is provided with the fixture block 451, can be inserted into the slot 441, and selectively passes through the slot 441 and then is connected and fixed with the converting knob 42, such that the converting bracket 44 and the connecting sleeve 45 are relatively rotatable, such that the connecting sleeve 45 can be rotated to drive the heating assembly 41 to rotate when the converting knob 42 is pulled out, and after the converting knob 42 is released to return, one end of the return spring 43 is connected to one side of the converting bracket 44, which is far away from the connecting sleeve 45, and the other end of the return spring 43 is connected to the converting knob 42, such that the converting bracket 44 and the connecting sleeve 45 can keep relatively stationary under the action of the, the safety and stability are improved. Meanwhile, the conversion bracket 44 is provided with a protruding rib 442 at the side of the slot 441, and the rib 442 is selectively inserted into the groove 462, so that when the reset spring 43 resets the conversion bracket 44, the rib 442 on the conversion bracket 44 is inserted into the groove 462 of the heat insulation sleeve 46, thereby further limiting the rotation of the heating assembly 41, preventing the potential safety hazard caused by the false rotation of the heating assembly 41, and when the conversion knob 42 is pulled out, the rib 442 and the groove 462 are separated, facilitating the rotation of the heating assembly 41, realizing the switching of modeling functions, and having a more reasonable structure.
More specifically, fig. 5 is a structural diagram of a conversion knob according to a preferred embodiment of the present invention. As shown in fig. 1 to 5, the outer wall of the connecting sleeve 45 away from the end where the rotating shaft 461 is provided with the protruding clamping block 451, the conversion knob 42 is provided with the clamping plate 421 with the groove, the clamping block 451 on the connecting sleeve 45 is clamped in the groove of the clamping plate 421 with the groove, so that after the connecting sleeve 45 is fixed on the conversion knob 42 through the screw 47, the matching of the clamping block 451 and the clamping plate 421 with the groove can be passed, the relative rotation of the connecting sleeve 45 and the conversion knob 42 is prevented, the reliability of rotating the connecting sleeve 45 through the conversion knob 42 is ensured, and the structure is more reasonable.
More specifically, the inner wall of the slot 441 of the conversion bracket 44 is provided with a through groove 4411 along the length direction of the slot 441, and the size of the through groove 4411 is consistent with that of the fixture block 451, so that the connection sleeve 45 can smoothly pass through the conversion bracket 44, and meanwhile, the connection sleeve 45 can be limited by the fixture block 451 on the connection sleeve 45 and the through groove 4411, so that the relative rest of the conversion bracket 44 and the connection sleeve 45 is realized, and the reliability of the rotation or fixation of the heating assembly 41 is ensured, and the structure is more reasonable.
The head of the molding device with the function of converting bent hair and straight hair provided by the embodiment comprises an upper handle 1, a lower handle 2, a control component 3, a molding component 4 and a power supply structure 5; the control component 3 and the power supply structure 5 are arranged in the hinged end 12 of the upper handle 1, the modeling structure is arranged in the working ends 11 of the upper handle 1 and the lower handle 2, one surface of the heating component 41 of the modeling structure is arranged in a plane, the other surface of the heating component 41 of the modeling structure is arranged in a wave-shaped bending mode, a connecting sleeve 45 is sleeved on a rotating shaft 461 of a heat insulation sleeve 46 at one end of the heating component 41, a conversion support 44 is sleeved outside the connecting sleeve 45, one end, away from the rotating shaft 461, of the connecting sleeve 45 is fixed on a conversion knob 42 arranged on the handle, a return spring 43 is arranged between the conversion knob 42 and the conversion, the conversion knob 42 is pulled out and rotated to drive the heating component 41 to rotate, so that two modeling functions of straight hair and wave curve modeling are realized, one machine with multiple purposes is realized, the cost is saved, the carrying and the use are convenient, the applicability is, The conversion bracket 44, the connecting sleeve 45 and the return spring 43 realize the rotation and fixation of the heating component 41, the reliability is high, and the safety guarantee is improved.
The above is only a preferred embodiment of the present invention, and not intended to limit the scope of the invention, and it should be appreciated by those skilled in the art that various equivalent substitutions and obvious changes made in the specification and drawings should be included within the scope of the present invention.