CN219249422U - Multifunctional molding device - Google Patents

Abstract

The utility model discloses a multifunctional molding machine, which comprises two shell components hinged with each other, wherein a containing groove is formed in one end face, close to each other, of each shell component, and a molding plate component is rotatably arranged in the containing groove; the periphery of shaping plate assembly is equipped with a plurality of working faces, and shaping plate assembly's one end is equipped with the knob subassembly. When the hair styling device is used, the knob assembly is rotated to a preset angle, so that the working surfaces required by a user are exposed out of the accommodating groove, and the two shell assemblies are rotated to a closed state, so that the working surfaces of the two styling plate assemblies are mutually pressed, and the hair is styling; the multifunctional molding machine can switch the working face of the shaping plate assembly by rotating the knob assembly, and the potentiometer on the circuit board is driven when the shaping plate rotates to control different working faces to output different temperatures; the modeling function required by the user is switched to, so that the modeling method is convenient and quick, and the use experience of the user is improved.

Description

Multifunctional molding device

Technical Field

The utility model relates to the technical field of molding equipment, in particular to a multifunctional molding machine.

Background

The styling apparatus is a hair styling tool which can hold and heat hair by a heatable holding plate to curl hair into a hairstyle required by various users, and is popular with a wide range of users in the hair styling field.

In order to meet the hair curling requirements of users for different hair styles, the prior art shapers need to be used with different models, and the hair curling grooves on the clamping plates of each shapers are different in shape, such as arc hair curling grooves or tooth hair curling grooves; this results in the user's hair styling, requiring switching between different styling apparatus, inconvenient use and high cost.

In view of this, there is a need for an improvement in the molder of the prior art to solve the technical problem of inconvenient operation of switching different kinds of molders.

Disclosure of Invention

The utility model aims to provide a multifunctional molding machine which solves the technical problems.

To achieve the purpose, the utility model adopts the following technical scheme:

the multifunctional molding machine comprises two shell components which are hinged with each other, wherein a containing groove is formed in one end face, close to each other, of each shell component, and a molding plate component is rotatably installed in the containing groove;

the outer periphery of the shaping plate assembly is provided with a plurality of working surfaces, and one end of the shaping plate assembly is provided with a knob assembly for driving the shaping plate assembly to rotate;

and rotating the knob assembly to drive the shaping plate assembly to rotate, wherein one working surface is exposed out of the accommodating groove.

Optionally, the shaping plate assembly comprises a shaping plate body and heat insulation plates arranged at two ends of the shaping plate body;

the heat insulating plate comprises a connecting part connected with the shaping plate body, a rotating shaft part is arranged on one end face of the connecting part, which is far away from the shaping plate body, and the rotating shaft part is rotationally connected to the shell assembly.

Optionally, the shaping plate body is penetratingly provided with a mounting hole along the length direction thereof, and a heating assembly is arranged in the mounting hole;

the heating component comprises a heating plate and heat conducting plates arranged on two end surfaces of the heating plate; the heat conducting plate is attached to the hole wall of the mounting hole.

Optionally, the rotating shaft part is provided with a plurality of limiting grooves at intervals along the circumferential direction of the rotating shaft part, and each limiting groove corresponds to one working surface;

the shell component is connected with a limiting component in a sliding manner, and the limiting component is provided with a clamping part; the limiting assembly slides to a preset position, and the clamping part is clamped in the limiting groove.

The limiting assembly comprises a limiting plate, and the clamping part is arranged at one end, close to the rotating shaft part, of the limiting plate;

the shell assembly is provided with a bolt at a position corresponding to the limiting assembly, the limiting plate is provided with a chute, and the bolt can be slidably connected in the chute;

the bolt is provided with a first locking part, a second locking part is arranged at a corresponding position on the shell component, and when the bolt slides along the chute, the first locking part and the second locking part are separated or buckled, so that the limiting plate is detachably connected to the shell component.

Optionally, the limiting component includes a limiting push block, and the clamping part is arranged at one end of the limiting push block, which is close to the rotating shaft part;

an elastic piece is arranged between the limiting push block and the shell assembly and used for pushing the limiting push block to move towards the direction close to the rotating shaft part.

Optionally, the multifunctional modeler further comprises a control component, wherein the control component comprises a PCB board; a plurality of control keys are arranged on one side of the PCB.

Optionally, a transmission assembly is arranged at one end of the shaping plate assembly, which is far away from the knob assembly, and one end of the transmission assembly is connected with a potentiometer electrically connected with the PCB;

and when the shaping plate assembly belt rotates, the potentiometer generates an electric signal and transmits the electric signal to the PCB.

Optionally, the transmission assembly comprises a first gear and a second gear in meshed connection with the first gear;

the potentiometer is provided with a rotating shaft, a first gear is arranged on the rotating shaft, and a second gear is connected with the shaping plate assembly along the same axis.

Optionally, the working surfaces are a first working surface, a second working surface and a third working surface respectively;

the first working surface is a flat surface, the second working surface is a tooth-shaped surface, and the third working surface is an arc-shaped surface.

Optionally, the multifunctional molding machine further comprises a transmission assembly, wherein two ends of the transmission assembly are respectively connected with the rotating shaft part and the knob assembly; the knob assembly is arranged on two end surfaces or side surfaces of the shell assembly;

the knob assembly is rotated to drive the transmission assembly to rotate, and the transmission assembly drives the rotating shaft portion to rotate.

Optionally, the transmission assembly includes a plurality of bevel gears engaged in sequence.

Compared with the prior art, the utility model has the following beneficial effects: when the hair styling device is used, the knob assembly is rotated to a preset angle, so that the working face required by a user is exposed out of the accommodating groove, and the two shell assemblies are rotated to a closed state, so that the working faces of the two styling plate assemblies are mutually pressed, and the hair is styling; this multi-functional molding ware can switch the working face of design board subassembly through rotatory knob subassembly, switches to the required molding function of user, and convenient and fast has improved user's use experience.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the utility model, and that other drawings can be obtained from these drawings without inventive faculty for a person skilled in the art.

The structures, proportions, sizes, etc. shown in the drawings are shown only in connection with the present disclosure, and are not intended to limit the scope of the utility model, since any modification, variation in proportions, or adjustment of the size, etc. of the structures, proportions, etc. should be considered as falling within the spirit and scope of the utility model, without affecting the effect or achievement of the objective.

FIG. 1 is a schematic diagram of the overall structure of a multifunctional shaper;

FIG. 2 is a schematic view of the mounting structure of the housing assembly and the setting plate assembly of the multi-function molding machine;

FIG. 3 is a schematic diagram of the core structure of the multifunctional shaper;

FIG. 4 is a schematic view of a first setting plate limit structure of the multifunctional shaper;

FIG. 5 is a schematic view of a second setting plate limit structure of the multifunctional shaper;

FIG. 6 is a schematic view of the structure of the heat shield of the multifunctional molder;

FIG. 7 is one of the schematic sectional structural views of the shaping plate body of the multifunctional shaper;

FIG. 8 is a second schematic cross-sectional view of the shaping plate body of the multifunctional shaper.

Illustration of: the shell assembly 1, the accommodating groove 11, the shaping plate assembly 2, the working surface 21, the knob assembly 3, the shaping plate body 22, the heat insulation plate 23, the connecting part 231, the rotating shaft part 232, the mounting hole 221, the heating assembly 4, the heating plate 41, the heat conduction plate 42, the limiting groove 233, the limiting assembly 5, the clamping part 51, the limiting plate 52, the bolt 53, the limiting push block 54, the elastic piece 55, the transmission assembly 6, the potentiometer 61, the first gear 62, the second gear 63, the control assembly 7, the PCB 71, the control key 72, the first working surface 211, the second working surface 212 and the third working surface 213.

Detailed Description

In order to make the objects, features and advantages of the present utility model more comprehensible, the technical solutions in the embodiments of the present utility model are described in detail below with reference to the accompanying drawings, and it is apparent that the embodiments described below are only some embodiments of the present utility model, but not all embodiments of the present utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be understood that the directions or positional relationships indicated by the terms "upper", "lower", "top", "bottom", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model. It is noted that when one component is referred to as being "connected" to another component, it can be directly connected to the other component or intervening components may also be present.

The technical scheme of the utility model is further described below by the specific embodiments with reference to the accompanying drawings.

The embodiment of the utility model provides a multifunctional molding machine, which comprises two shell components 1 hinged with each other, wherein a containing groove 11 is formed in one end surface of each shell component 1, which is close to each other, and a molding plate component 2 is rotatably arranged in the containing groove 11;

the outer periphery of the shaping plate assembly 2 is provided with a plurality of working surfaces 21, and one end of the shaping plate assembly 2 is provided with a knob assembly 3 for driving the shaping plate assembly 2 to rotate;

the knob assembly 3 is rotated to drive the setting plate assembly 2 to rotate, wherein one working surface 21 is exposed out of the accommodating groove 11.

It should be noted that when the two housing components 1 rotate to approach each other, the working surfaces 21 of the two housing components 1 cooperate with each other, and the two components can be used for hot-pressing hair for styling;

the working principle of the utility model is as follows: when in use, the knob assembly 3 is rotated to a preset angle, so that the working surface 21 required by a user is exposed out of the accommodating groove 11, and the two shell assemblies 1 are rotated to a closed state, so that the working surfaces 21 of the two setting plate assemblies 2 are mutually pressed, thereby setting hair; compared with the modeling equipment in the prior art, the multifunctional modeling machine can switch the working face 21 of the modeling plate assembly 2 through rotating the knob assembly 3, and can switch to the modeling function required by a user, thereby being convenient and quick and improving the use experience of the user.

In this embodiment, the shaping plate assembly 2 includes a shaping plate body 22, and heat insulation plates 23 disposed at two ends of the shaping plate body 22;

the heat insulation plate 23 comprises a connecting portion 231 connected with the shaping plate body 22, a rotating shaft portion 232 is disposed on an end face of the connecting portion 231 away from the shaping plate body 22, and the rotating shaft portion 232 is rotatably connected to the housing assembly 1.

One end of the connecting portion 231 is connected to the knob assembly 3 along the same axis, and when the knob assembly 3 is rotated, the shaping plate body 22 is driven to rotate around the axis.

Further, the shaping plate body 22 is provided with a mounting hole 221 penetrating along the length direction thereof, and the mounting hole 221 is internally provided with a heating component 4;

the heating assembly 4 comprises a heating plate 41 and heat conducting plates 42 arranged on two end surfaces of the heating plate 41; the heat conducting plate 42 is attached to the wall of the mounting hole 221.

In operation, the heating plate 41 heats and is conducted to the shaping plate body 22 through the heat conducting plate 42, so that the heating area is increased, the shaping plate body 22 can be heated uniformly, the heat insulating plate 23 plays a role in heat insulation, and heat transfer to the shell assembly 1 is reduced.

In this embodiment, the rotating shaft 232 is provided with a plurality of limiting grooves 233 at intervals along the circumferential direction thereof, and each limiting groove 233 corresponds to one working surface 21;

the shell assembly 1 is connected with a limiting assembly 5 in a sliding manner, and the limiting assembly 5 is provided with a clamping part 51; the limiting assembly 5 slides to a preset position, and the clamping portion 51 is clamped in the limiting groove 233.

As shown in fig. 4 to 6, when the clamping portion 51 is clamped in the limiting groove 233, the rotating shaft 232 is locked and limited by the limiting component 5 and cannot rotate, so as to fix the working surface 21 of the shaping plate component 2, so that a user can perform corresponding shaping work conveniently.

Through rotatory knob 3, drive heat insulating board 23 with heating element 2 is rotatory, realizes the switching of different working planes, and heat insulating board 23 front end is equipped with spacing subassembly 5, through spacing subassembly 5 and the cooperation of shell corresponding structure, realizes that heating element 2 can not 360 degrees rotations in certain angle range, plays the effect of protection connecting wire.

Further illustratively, the limiting assembly 5 includes a limiting plate 52, and the clamping portion 51 is disposed at one end of the limiting plate 52 near the rotating shaft 232;

a bolt 53 is arranged on the shell assembly 1 at a position corresponding to the limit assembly 5, a chute is arranged on the limit plate 52, and the bolt 53 can be slidably connected in the chute;

referring to fig. 4, a first locking portion is provided on the latch 53, a second locking portion is provided on a corresponding position on the housing assembly 1, and when the latch 53 slides along the chute, the first locking portion and the second locking portion are separated or locked, so that the limiting plate 52 is detachably connected to the housing assembly 1.

It should be noted that, an end of the latch 53 is exposed to the housing assembly 1, so as to be convenient for a user to operate; when in use, a user firstly rotates the knob assembly 3 to a preset angle, then inserts the bolt 53 into the chute to enable the first locking part and the second locking part to be mutually buckled so as to fix the position of the limiting plate 52, and at the moment, the clamping part 51 is inserted into the limiting groove 233, so that the shaping plate assembly 2 cannot rotate, and the limiting effect is achieved;

similarly, the latch 53 is pulled outwards to separate the first locking portion and the second locking portion from each other, and the limiting plate 52 can slide up and down relative to the limiting groove 233, so that the shaping plate assembly 2 can be rotated; the limiting plate 52 is detachably connected through the plug pins 53, and the use is convenient and quick.

As another alternative of this embodiment, the limiting assembly 5 includes a limiting push block 54, and the clamping portion 51 is disposed at one end of the limiting push block 54 near the rotating shaft 232;

an elastic member 55 is disposed between the limiting push block 54 and the housing assembly 1, and the elastic member 55 is used for pushing the limiting push block 54 to move in a direction approaching the rotating shaft 232. Wherein the elastic member 55 is preferably a spring.

With reference to fig. 5, the present solution also provides another solution of the limiting assembly 5, and the elastic member 55 pushes the limiting push block 54 to be clamped in the limiting groove 233 by matching the elastic member 55 with the limiting push block 54, so as to fix the angle of the rotating shaft 232; the knob 3 is turned to drive the rotation shaft 232 to rotate, and the rotation shaft 232 pushes the limiting push block 54 upwards to compress the elastic member 55, so that the rotation can be performed.

In this embodiment, the multifunctional shaper further comprises a control assembly 7, the control assembly 7 comprising a PCB board 71;

a plurality of control keys 72 are arranged at one side of the PCB 71, and the running state of the multifunctional shaper can be controlled by pressing the control keys 72; the number of the control keys 72 is three, namely a power control key, a temperature increase control key and a temperature decrease control key, so that a user can control the heating temperature of the heating component 4 of the current working surface 21 by operating the temperature increase control key and the temperature decrease control key, and the working surface 21 is heated to the temperature required by the user.

Specifically, a transmission assembly 6 is disposed at one end of the shaping plate assembly 2 far away from the knob assembly 3, and a potentiometer 61 electrically connected with the PCB 71 is connected to one end of the transmission assembly 6;

when the shaping plate assembly 2 rotates with the transmission assembly 6, the potentiometer 61 generates an electric signal and transmits the electric signal to the PCB 71.

Further illustratively, the transmission assembly 6 includes a first gear 62, and a second gear 63 in meshed engagement with the first gear 62;

the potentiometer 61 is provided with a rotating shaft, the first gear 62 is arranged on the rotating shaft, and the second gear 63 is connected with the shaping plate assembly 2 along the same axis.

When the shaping plate assembly 2 rotates, the first gear 62 and the second gear 63 are driven to synchronously rotate, the first gear 62 drives the rotating shaft to rotate relative to the potentiometer 61, the potentiometer 61 can produce an electric signal and transmit the electric signal to the PCB 71, and the PCB 71 receives the electric signal and then controls the heating assembly 4 to realize temperature adjustment, so that automatic switching of different heating temperatures under different working surfaces is realized, and convenience and rapidness are realized.

In the present embodiment, the plurality of working surfaces 21 are a first working surface 211, a second working surface 212, and a third working surface 213, respectively;

the first working surface 211 is a flat surface, the second working surface 212 is a tooth-shaped surface, and the third working surface 213 is an arc-shaped surface.

When the third working surface 213 is an arc surface, the working surfaces 21 of the two housing assemblies 1 are respectively arc-shaped grooves and arc-shaped protrusions, and the two working surfaces 21 can be attached to each other.

In this embodiment, the multifunctional molding machine further includes a transmission assembly, two ends of which are respectively connected with the rotation shaft portion 232 and the knob assembly 3; wherein the knob assembly 3 is arranged on two end surfaces or side surfaces of the shell assembly 1;

rotating the knob assembly 3 drives the transmission assembly to rotate, and the transmission assembly drives the rotation shaft 232 to rotate. The transmission assembly is used for changing the transmission direction of the knob assembly 3, and it should be noted that if the knob assembly 3 is set to one end of the housing assembly 1, no additional transmission assembly is required, and the rotating shaft portion 232 and the knob assembly 3 may be directly connected.

Wherein optionally, the transmission assembly comprises a plurality of bevel gears which are meshed in turn. The driving direction of the knob assembly 3 is changed by a multi-stage bevel gear so that the knob assembly 3 can be integrated to the side of the housing assembly 1 for user's operation.

The above embodiments are only for illustrating the technical solution of the present utility model, and not for limiting the same; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present utility model.

Claims (12)

1. The multifunctional molding machine comprises two shell components (1) which are hinged with each other, and is characterized in that one end surfaces of the two shell components (1) which are close to each other are respectively provided with a containing groove (11), and a molding plate component (2) is rotatably arranged in each containing groove (11);

the outer periphery of the shaping plate assembly (2) is provided with a plurality of working surfaces (21), and one end of the shaping plate assembly (2) is provided with a knob assembly (3) for driving the shaping plate assembly (2) to rotate;

the knob assembly (3) is rotated to drive the shaping plate assembly (2) to rotate, wherein one working surface (21) is exposed out of the accommodating groove (11).

2. The multifunctional molder according to claim 1, wherein the shaping plate assembly (2) comprises a shaping plate body (22), and heat insulation plates (23) provided at both ends of the shaping plate body (22);

the heat insulating plate (23) comprises a connecting part (231) connected with the shaping plate body (22), a rotating shaft part (232) is arranged on one end face of the connecting part (231) away from the shaping plate body (22), and the rotating shaft part (232) is rotationally connected to the shell assembly (1).

3. The multifunctional molder according to claim 2, wherein the shaping plate body (22) is provided with a mounting hole (221) penetrating along the length direction thereof, and a heating assembly (4) is arranged in the mounting hole (221);

the heating assembly (4) comprises a heating plate (41) and heat conducting plates (42) arranged on two end faces of the heating plate (41); the heat conducting plate (42) is attached to the hole wall of the mounting hole (221).

4. The multifunctional shaper according to claim 2, wherein the shaft portion (232) is provided with a plurality of limiting grooves (233) at intervals along a circumferential direction thereof, each limiting groove (233) corresponding to one of the working surfaces (21);

a limiting assembly (5) is connected to the shell assembly (1) in a sliding manner, and a clamping part (51) is arranged on the limiting assembly (5); the limiting assembly (5) slides to a preset position, and the clamping part (51) is clamped in the limiting groove (233).

5. The multifunctional shaper according to claim 4, wherein the limiting assembly (5) comprises a limiting plate (52), and the clamping portion (51) is disposed at one end of the limiting plate (52) near the rotating shaft portion (232);

a bolt (53) is arranged on the shell assembly (1) at a position corresponding to the limiting assembly (5), a chute is formed in the limiting plate (52), and the bolt (53) can be slidably connected in the chute;

be equipped with first hasp portion on bolt (53), corresponding position is equipped with second hasp portion on casing subassembly (1), when bolt (53) are along the spout slip, first hasp portion with second hasp portion separates or the lock, makes limiting plate (52) detachable connect in on casing subassembly (1).

6. The multifunctional shaper according to claim 4, wherein the limiting assembly (5) comprises a limiting push block (54), and the clamping portion (51) is disposed at one end of the limiting push block (54) close to the rotating shaft portion (232);

an elastic piece (55) is arranged between the limiting push block (54) and the shell assembly (1), and the elastic piece (55) is used for pushing the limiting push block (54) to move towards the direction close to the rotating shaft portion (232).

7. The multifunctional modeler of claim 1, further comprising a control assembly (7), the control assembly (7) comprising a PCB board (71); a plurality of control keys (72) are arranged on one side of the PCB (71).

8. The multifunctional shaper according to claim 7, wherein a transmission assembly (6) is arranged at one end of the shaping plate assembly (2) far away from the knob assembly (3), and a potentiometer (61) electrically connected with the PCB (71) is connected at one end of the transmission assembly (6);

when the shaping plate assembly (2) rotates with the transmission assembly (6), the potentiometer (61) generates an electric signal and transmits the electric signal to the PCB (71).

9. The multifunctional shaper according to claim 8, characterized in that the transmission assembly (6) comprises a first gear (62) and a second gear (63) in meshed connection with the first gear (62);

the potentiometer (61) is provided with a rotating shaft, the first gear (62) is arranged on the rotating shaft, and the second gear (63) is connected with the shaping plate assembly (2) along the same axis.

10. The multifunctional shaper according to claim 1, wherein the plurality of working surfaces (21) are a first working surface (211), a second working surface (212) and a third working surface (213), respectively;

the first working surface (211) is a flat surface, the second working surface (212) is a tooth-shaped surface, and the third working surface (213) is an arc-shaped surface.

11. The multifunctional shaper according to claim 2, further comprising a transmission assembly, both ends of which are connected to the rotation shaft portion (232) and the knob assembly (3), respectively; wherein the knob assembly (3) is arranged on two end surfaces or side surfaces of the shell assembly (1);

the knob assembly (3) is rotated to drive the transmission assembly to rotate, and the transmission assembly drives the rotating shaft part (232) to rotate.

12. The multi-purpose molding machine of claim 11, wherein said drive assembly includes a plurality of bevel gears engaged in sequence.

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