3D MODELING DEVICE FOR EYELASHES

Abstract

The disclosure relates to a 3D modeling device for eyelashes, including: a base serving as a bearing body in the process of 3D modeling of eyelashes, the base having a first side and a second side; a first support portion mounted at the first side of the base; a second support portion mounted at the second side of the base; a first elastic component sleeved on the first support portion; a second elastic component sleeved on the second support portion; a lamination portion having lamination teeth; and a bearing pad having flexibility, the bearing pad being used for placement of eyelashes; the lamination teeth being configured to be in contact with eyelashes, and a user achieving the change in 3D modeling by adjusting the acting force applied to the lamination portion.

Description

CROSS REFERENCE TO RELATED APPLICATIONS

This application claims foreign priority of Chinese Patent Application No. 202110664696.8, filed on Jun. 15, 2021 in the China National Intellectual Property Administration, the disclosures of all of which are hereby incorporated by reference.

TECHNICAL FIELD

The disclosure belongs to the technical field of eyelashes and artificial eyelashes, and particularly relates to a 3D modeling device for eyelashes.

BACKGROUND OF THE PRESENT INVENTION

False eyelashes are artificial eyelashes for beautifying eyes, one of cosmetics, belonging to the technical field of artificial eyelashes. In general, the eyelashes are lengthened and thickened. Artistic design is used for the eyes to allow the eyes look bigger, brighter and fuller. When users purchase and use false eyelashes, there will be the following problems:

1. False eyelashes have various styles, but their curling degree and fluffy degree are different according to different styles. If the styles purchased by users cannot reach the ideal curling degree sand fluffy degree, the false eyelashes need to be purchased again or discarded with high use cost;

2. When applying make-up, repeated adjustment and violent tearing will reduce the fluffy degree of eyelashes and affect the makeup effect;

3. Washing face with water or sweating will cause eyelashes collapse due to wetting, changed curl degree and poor cosmetic effect;

4. After removing makeup, improper placement of eyelashes, accidental extrusion and the like will lead to deformation and flattening of eyelashes;

5. After false eyelashes are purchased by the user, they has reduced levels, insufficient curing degree and decreased fluffy degree due to long-term placement, and the false eyelashes cannot be used to be wasted;

6. Under high temperature environment eyelashes are easy to flatten, have decreased curling degree and fluffy degree, and lose eye 3D beauty makeup effect, so as not to have use value.

Therefore, it will be necessary for how to effectively solve technical problems existing in the prior art that false eyelashes have undesirable 3D modeling, poor beauty makeup effect and increased use cost because they are discarded without meeting requirements.

SUMMARY OF PRESENT INVENTION

The object of the disclosure is to provide a 3D modeling device for eyelashes to solve the technical problems existing in the prior art that false eyelashes have undesirable 3D modeling, poor beauty makeup effect and increased use cost because they are discarded without meeting requirements. The technical solution to solve the technical problem by the disclosure is as follows:

A 3D modeling device for eyelashes, comprising:

a base serving as a bearing body in the process of 3D modeling of eyelashes, the base having a first side and a second side;

a first support portion mounted at the first side a of the base;

a second support portion mounted at the second side of the base;

a first elastic component sleeved on the first support portion;

a second elastic component sleeved on the second support portion;

a lamination portion having lamination teeth, the lamination portion being configured to do reciprocating motion in an elastic force direction of the first elastic component and/or the second elastic component; and

a bearing pad having flexibility, the bearing pad being used for placement of eyelashes;

the lamination teeth being configured to be in contact with eyelashes, and a user achieving the change in 3D modeling of eyelashes by adjusting the acting force applied to the lamination portion.

The further technical solution of the disclosure is as follows: the disclosure also comprises a first sleeve and a second sleeve, the first elastic component being mounted in the first sleeve, and the second elastic component being mounted in the second sleeve.

Further, the first support portion has a first fastener which is used for fixation of the first elastic component, and the second support portion has a second fastener which is used for fixation of the second elastic component.

Further, one end of the lamination portion is connected with the first sleeve, and the other end of the lamination portion is connected with the second sleeve.

Further, the top end of the first sleeve is provided with a first face cover, and the top end of the second sleeve is provided with a second face cover.

Further, the lamination portion has a front surface and a back surface, the lamination teeth are located at the bottom of the front surface, and a distance between the lamination teeth and the base is closer than that between the back surface and the base.

According to the conception of the disclosure, also provided is a 3D modeling device for eyelashes, comprising:

a base serving as a bearing body in the process of 3D modeling of eyelashes, the base having a first side and a second side;

a first support portion mounted at the first side of the base;

a second support portion mounted at the second side of the base;

a first elastic component sleeved on the first support portion;

a second elastic component sleeved on the second support portion;

a lamination portion having lamination teeth; and

a bearing pad having flexibility, the bearing pad being used for placement of eyelashes;

a first sleeve sleeved on the first support portion, and the first elastic component being mounted in the first sleeve;

a second sleeve sleeved on the second support, portion, and the second elastic component being mounted in the second sleeve;

the first sleeve having a first chute, and the second sleeve having a second chute;

one end of the lamination teeth being connected with the first elastic component and doing reciprocating motion in the first chute in an elastic force direction of the first elastic component, and the other end of the lamination teeth being connected with the second elastic component and doing reciprocating motion in the second chute in an elastic force direction of the second elastic component.

Further, the base is high in middle and low in two sides.

Further, the lamination teeth are straight teeth, helical teeth, conical teeth, “herringbone” teeth, curved teeth, triangular teeth or inverted trapezoidal teeth.

Further, the material of the bearing pad is TPE, TPR, TPU, silica gel or rubber.

Compared with the prior art, the disclosure has the beneficial effects that 1. In the disclosure, by applying the acting force to the lamination portion, the lamination teeth are in contact with the eyelashes, and lamination teeth with different shapes and different acting forces can realize the changes in different curling degrees and fluffy degrees of the eyelashes. Users can complete various 3D modeling of the eyelashes according to their own needs by changing the acting force applied to the lamination portion; 2. The lamination portion is mounted on the support portion which can play a role of limiting the lamination portion, and the elastic component is sleeved on the support portion for reciprocating motion of the lamination portion, the user can present the 3D modeling effect of eyelashes by gently squeezing the lamination portion, so this operation is very simple and convenient; 3. the 3D modeling device of the disclosure has smooth radian, is suitable for different eye shapes, naturally fits the lines of eyes, and new users do not need to worry about the intensity of use; 4. depending on different applied acting force, the fluffy degree can be large or small, which can make a style of eyelashes present a variety of 3D effects according to the demand, greatly reducing the use cost; 5. it solves the technical problem of uneven curling degree and fluffy degree of eyelashes caused by repeatedly sticking and pinching when applying makeup, the 3D modeling device of the disclosure is used for local shaping without changing eyelashes, so as to save time and ensure delicate beauty effect; 6. for the collapsed eyelashes due to wetting, the 3D modeling device can be used to reshape the eyelashes after drying without removing makeup, saving time and avoiding waste; 7. if the eyelashes are deformed due to improper placement or extrusion after makeup removal, the 3D modeling device for eyelashes can be used to restore the 3D effect without affecting reuse; 8. if the curl degree and fluffy degree of eyelashes are decreased due to long-time storage or high storage temperature, the 3D modeling device can be used to reshape, so as to avoid waste.

DESCRIPTION OF THE DRAWINGS

FIG. 1 is an explosive view of a 3D modeling device for eyelashes according to an embodiment of the disclosure;

FIG. 2 is a stereogram of a 3D modeling device for eyelashes according to an embodiment, of the disclosure;

FIG. 3 is another stereogram of a 3D modeling device for eyelashes according to an embodiment of the disclosure;

FIG. 4 is a use state reference diagram of a 3D modeling device for eyelashes applied to 3D modeling of artificial eyelashes according to an embodiment of the disclosure;

FIG. 5 is a sectional view of a 3D modeling device for eyelashes according to an embodiment of the disclosure;

FIG. 6 is a front view of a 3D modeling device for eyelashes according to an embodiment of the disclosure;

FIG. 7 is a rear view of an eyelash 3D modeling device according to an embodiment of the disclosure;

FIG. 8 is a stereogram of a 3D modeling device for eyelashes according to another embodiment of the disclosure;

wherein, 100, 3D modeling device for eyelashes; 1, base; 2, first support portion; 201, first fastener; 3, second support portion; 301, second fastener; 4, first elastic component, 5, second elastic component; 6 lamination portion; 601, lamination teeth; 602, front surface; 603, back surface; 7, bearing pad; 8, first sleeve; 801, first chute; 9, second sleeve; 901, second chute; 10, first face cover; 11, second face cover; 12, eyelash stem; 13, eyelash; A0, initial position; A1; a certain position; F, acting force.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

In order to make the above objects, features and advantages of the disclosure more obvious and easily understand, the specific embodiment of the disclosure will be described in detail in combination with the drawings. Many specific details are set forth in the following description to facilitate a full understanding of the disclosure. However, the disclosure can be implemented in many ways different from those described here. Those skilled in the art can make similar improvements without violating the connotation of the disclosure. Therefore, the disclosure is not limited by the specific embodiments disclosed below.

Description of technical terms: 1, unless otherwise specified, the technical term “eyelash” in the disclosure is the general term of false eyelashes and true eyelashes, and “eyelash” is applicable to both false eyelashes and true eyelashes.

2. “Curling degree” refers to the size of an angle α between planes where the eyelash stem is located α, which is a technical index for measuring the 3D modeling of eyelashes. The bigger the angle α, the larger the curling degree, and the more obvious the 3D modeling of eyelashes.

3. In the disclosure, the important index to measure the “fluffy degree” is a distance L between two adjacent groups of eyelashes. It can be understood by those skilled in the art that the larger the distance L, the greater the fluffy degree, and the more obvious the 3D modeling effect of eyelashes.

Example 1

Referring to FIG. 1 and FIG. 5, this example relates to a 3D modeling device for eyelashes 100, including: a base 1 serving as a bearing body in the process of 3D modeling of eyelashes, wherein particularly, the base 1 includes a middle region for placement of eyelashes sand two side regions for providing fixation positions, the two side regions of the base 1 can be respectively referred to as a first side and a second side, for example, the first side is the left side of the base, and the second side is the right side of the base;

a first support portion 2 mounted at the first side of the base 1, for example, the left side, wherein the first support portion 2 can be fixed on the base 1 or can be detachable, the first support portion 2 is used for limitation of a first elastic component 4 to ensure that the first elastic component 4 moves in the axial direction of the first support portion 2, in this example, the first support portion 2 can be detachably mounted at the first side of the base 1, for example, it is adhered via solid glue, and the first support portion 2 is a cylindrical upright;

a second support portion 3 mounted at the second side of the base 1, for example the right side, wherein the second support portion 3 can be fixed on the base 1 or can be detachable, the second support portion 3 is used for limitation of the second spring element 5 to ensure that the second elastic component 5 moves in an axial direction of the second support portion 3, in this example, the second support portion 3 can be detachably mounted on the second side of the base 1, for example, it is adhered via solid glue, and the first support portion 3 is a cylindrical upright;

a first elastic component 4 sleeved on the first support portion 2, wherein the first elastic component 4, as a reciprocating mechanism for the 3D modeling device 100, can automatically reset after 3D modeling of eyelashes is completed:

a second elastic component 5 sleeved on the second support portion 3, wherein the second elastic component 5, as a reciprocating mechanism for the 3D modeling device 100, can automatically reset after 3D modeling of eyelashes is completed, and the first elastic component 4 and the elastic component 5 can be for example springs;

a lamination portion 6 having lamination teeth 601, wherein the lamination portion 6 is configured to do reciprocating motion in an, elastic force direction of the first elastic component 4 and/or the second elastic component 5; and a user can apply an acting force to the lamination portion 6, and change in different 3D modeling of eyelashes can be achieved by changing the acting force; and

a bearing pad 7 having flexibility, wherein in this example, the bearing pad 7 is arranged on the base 1, is used for placement of eyelashes and can take effects of cushion and protection in the process of 3D modeling of eyelashes, so as to prevent the breakage of eyelashes;

the lamination teeth 601 are configured to be in contact with eyelashes, and a user achieves the change in 3D modeling of eyelashes by adjusting the acting force applied to the lamination portion 6, the lamination teeth 601 are uniformly arranged in a whole row as a whole, a gap width between tooth tips of adjacent two groups of the lamination teeth 601 is 0.1 mm-20 mm, in this example, the lamination teeth 601 are inverted trapezoidal teeth, and the gap width between tooth tips of adjacent two groups of the lamination teeth 601 is 0.5 mm.

Preferably, in this example, the 3D modeling device 100 for eyelashes also includes a first sleeve 8 and a second sleeve 9, wherein the first elastic component 4 is mounted in the first sleeve 8, the second elastic component 5 is mounted in the second sleeve 9, the interior of the first sleeve is hollow and used for installation and limitation of the first elastic component 4, the second elastic component 5 is mounted in the second sleeve 9, the interior of the first sleeve 8 is hollow and used for installation and limitation of the first elastic component 4, the interior of the second sleeve 9 is hollow and used for installation and limitation of the second elastic component 5, the first sleeve 8 and the second sleeve 9 are both cylindrical, materials of the first sleeve 8 and the second sleeve 9 can be plastic, wood, stainless steel and alloy, in this example, the first sleeve 8 and the second sleeve 9 are both plastic sleeves, and the plastic sleeve can be transparent or non-transparent, without limitation here.

The second support portion 2 has a first fastener 201 which is used for fixation of the first elastic component 4, the second support portion 4 has a second fastener 301 which is used for fixation of the second elastic component 5, particularly, the first fastener 201 is a stainless steel fixation ring, the first fastener 201 is of circular truncated cone shape, the diameter of the bottom is larger than the top diameter, and one end of the first elastic component 4 is fixed on the first support portion 2 through the first fastener 201, the second fastener 301 is a stainless steel fixing ring, the second fastener 301 is of a circular truncated cone shape. the diameter of the bottom is larger than the diameter of the top, and, one end of the second elastic component 5 is fixed on the second support portion 3 through the second fastener 301.

In this example, one end of the lamination portion 6 is connected with the first sleeve 8, and the other end of the lamination portion 6 is connected with the second sleeve 9. The lamination portion 6 can be integrated with the first sleeve 8 and the second sleeve 9 to form an integral motion lamination mechanism, or the lamination portion 6 can be detachably connected with the first sleeve 8 and detachably connected with the second sleeve 9 at the same time, the lamination portion 6 is detachably connected with the first sleeve 8 and the second sleeve 9 respectively to facilitate the selection of lamination teeth 601 with different shapes to achieve a variety of different 3D modeling effects of eyelashes. In this example, the lamination portion 6 is respectively detachably connected with the first sleeve 8 and the second sleeve 9.

Preferably, the top end of the first sleeve 8 is provided with a first face cover 10, and the top end of the second sleeve 9 is provided with a second face cover 11, the first face cover 10 is used for limitation and fixation of the first elastic component 4, and the second face cover 11 is used for limitation and fixation of the second elastic component 5.

Referring to FIG. 2, FIG. 3, FIG. 6 and FIG. 7, in this example, the lamination portion 6 has a front surface 602 and a back surface 603. Specifically, the lamination teeth 601 are located at the bottom of the front face 602, the lamination teeth 601 are arranged in an arc shape, the central part, of the arc shape is the highest, point of the lamination teeth 601, and the contact part of the arc shape with the first sleeve 8 and the second sleeve 9 is the lowest point of the lamination teeth 601, the distance between the lamination teeth 601 and the base 1 is closer than that between the back surface 603 and the base 1. More specifically, the distance between the highest point of the arc-shaped lamination teeth 601 and the base 1 is closer than that between the back surface 603 and the base 1, so as to ensure that the eyelashes have enough space to complete the free change of curling degree and fluffy degree in the process of 3D modeling of eyelashes. To prevent the occurrence of resilience, uneven curling degree and fluffy degree in the process of 3D modeling of eyelashes due to the blocking of the back 603, resulting in the problem that the 3D modeling effect of eyelashes cannot reach the expected level.

Referring to FIG. 4. FIG. 4 is a use state reference diagram of a 3D modeling device 100 for eyelashes applied to 3D modeling of artificial eyelashes. In this example, the artificial eyelashes include an eyelash stem 12 and eyelashes 13. Before use, the artificial eyelashes are firstly placed on the bearing pad 7, and the eyelash stem 12 is placed neatly, roughly facing the lower part, of the lamination teeth 601, The eyelashes 13 are in an initial position A0; then, the user applies the lamination portion 6 an acting force F towards the eyelashes 13, and the lamination teeth 601, the first sleeve 8 and the second sleeve 9 move towards the eyelashes 13. When the lamination teeth 601 are in contact with the eyelash stem 12, the user continues to apply the acting force in the original direction, a part of the eyelash stem not in contact with the lamination teeth 601 drives a part of the eyelash at the initial position A0 to produce slight curling and fluffy changes, and another part of the eyelash stem in contact with the lamination teeth 601 drives another part of the eyelash to be curled to a certain position A1, where the curling degree and fluffy degree of the eyelashes are higher than those slightly changed at the relative position A0, so as to form a scattered and chic 3D modeling effect; when the user stops applying the acting force F, the lamination teeth 601 can reset under the elastic force effect of the elastic component. If the user finds that the required 3D modeling effect cannot be achieved under the acting force F, a bigger acting force can be applied to achieve remodeling until the requirements are met.

Example 2

Referring to FIG. 8, this example provides a 3D modeling device for eyelashes, including: a base 1 serving as a bearing body in the process of 3D modeling of eyelashes, and the base 1 having a first side and a second side; a first support portion 2 mounted at the first side of the base 1; a second support portion 3 mounted at the second side of the base 1; a first elastic component 4 (not shown, see FIGS. 1 and 5) sleeved on the first support portion 2; a second elastic component 5 (not shown, see FIGS. 1 and 5) sleeved on the second support portion 3; a lamination portion 6 having lamination teeth 601; a bearing pad 7 having flexibility and being used for placement of eyelashes; a first sleeve 8 sleeved on the first support portion 2, and the first elastic component 4 being mounted in the first sleeve 8; a second sleeve 9 sleeved on the second support portion 3, and the second elastic component 5 being mounted in the second sleeve 9; the first sleeve 8 having a first chute 801, and the second sleeve 9 having a second chute 901; one end of the lamination portion 6 being connected with the first elastic component 4 and doing reciprocating motion in the first chute 801 in the elastic force direction, of the first elastic component 4, the other end of the lamination portion 6 being connected with the second elastic component 5 and doing reciprocating motion in the second chute 901 in the elastic force direction of the second elastic component 5.

Structurally, this example differs from example 1 that the first sleeve 8 has the first chute 801, the second sleeve 9 has the second chute 901, and others are the same as example 1.

More specifically, the first chute 801 is located on the outer wall of the first sleeve 8 and close to one side of the bearing pad 7, the second chute 901 is located on the outer wall of the second sleeve 9 and close to one side of the bearing pad 7, the first chute 801 and the second chute 901 are relatively arranged in parallel. In this example, the first support portion 2 and the first sleeve 8 are stationary, and the second support portion 3 and the second sleeve 9 are stationary. When in use, the lamination teeth 601 move together with the first elastic component 4 and the second elastic component 5, and the first sleeve 8 and the second sleeve 9 remain stationary.

Other working principles are the same as those of example 1.

In the disclosure, the base 1 is high in the middle and low in two sides, that is, the heights of the first side and the second side are lower than the height of an eyelash placement region; the lamination teeth 601 are straight teeth, oblique teeth, conical teeth, “herringbone” shaped teeth, curved teeth, triangular teeth or inverted trapezoidal teeth, the material can be plastic, wood, stainless steel, alloy and other hard plastic materials; the bearing pad 7 uses a soft pad having elasticity, which does not hurt eyelashes and eye skin when in use, and the material of the bearing pad 7 is TPE, TPR, TPU, silica gel or rubber.

The disclosure is suitable for artificial eyelashes and true eyelashes. By applying the acting force to the lamination portion, the lamination teeth are in contact with eyelashes. The lamination teeth having different shapes and acting, forces can realize the change in different curling and fluffy degrees of eyelashes. Users can complete various 3D modeling of eyelashes according to their own needs by changing the acting force applied to the lamination portion; the lamination portion is mounted on the support portion, which can limit the position of the lamination portion. The elastic component is sleeved on the support portion, which is used for reciprocating motion of the lamination portion. The user can present the 3D modeling effect of eyelashes by gently squeezing the lamination portion, which is very simple and convenient; The 3D modeling device of the disclosure has smooth radian, is suitable for different eye shapes and fits the eye lines naturally, and new users do not need to worry about the intensity of use; according to the applied acting force, the fluffy degree can be large or small, which can make a style of eyelashes present a variety of 3D effects according to the demand, greatly reducing the use cost; it solves the technical problem, of uneven curling and fluffy degrees of eyelashes caused by repeatedly sticking and kneading when applying makeup, adopts the 3D modeling device of the disclosure for local shaping, without changing eyelashes, saves time and ensures delicate beauty effect; for the collapsed eyelashes due to wetting, the 3D modeling device can be used to reshape the eyelashes after drying without removing makeup, saving time and avoiding, waste; if the eyelashes are deformed due to improper placement or extrusion after makeup removal, the 3D modeling device for eyelashes can be used to restore the 3D effect without affecting reuse; if the curl and fluffy degrees of eyelashes are decreased due to long-time storage or high storage temperature, the 3D modeling device can be used to reshape the eyelashes to avoid waste.

Claims

1. A 3D modeling device for eyelashes, comprising:

a base (1) serving as a bearing body in the process of 3D modeling of eyelashes, the base (1) having a first side and a second side;

a first support portion (2) mounted at the first side of the base (1),

a second support portion (3) mounted at the second side of the base (1);

a first elastic component (4) sleeved on the first support portion (2);

a second elastic component (5) sleeved on the second support portion (3);

a lamination portion (6) having lamination teeth (601), the lamination portion (6) being configured to do reciprocating motion in an elastic direction of the first elastic component (4) and/or the second elastic component (5); and

a bearing pad (7) having flexibility, the bearing pad (7) being used for placement of eyelashes;

the lamination teeth (601) being configured to be in contact with eyelashes, and a user achieving the change in 3D modeling of eyelashes by adjusting the acting force applied to the lamination portion (6).

2. The 3D modeling device for eyelashes according to claim 1, also comprising a first sleeve (8) and a second sleeve (9), the first elastic component (4) being mounted in the first sleeve (8), and the second elastic component (5) being mounted in the second sleeve (9).

3. The 3D modeling device for eyelashes according to claim 1, wherein the first support portion (2) has a first fastener (201) which is used for fixation of the first elastic component (4), and the second support portion (3) has a second fastener (301) which is used for fixation of the second elastic component (5).

4. The 3D modeling device for eyelashes according to claim 1, wherein one end of the lamination portion (6) is connected with the first sleeve (8), and the other end of the lamination portion (6) is connected with the second sleeve (9).

5. The 3D modeling device for eyelashes according to claim 2, wherein the top end of the first sleeve (8) is provided with a first face cover (10), and the top end of the second sleeve (9) is provided with a second face cover (11).

6. The 3D modeling device for eyelashes according to claim 1, wherein the lamination portion (6) has a front surface (602) and a back surface (603), the lamination teeth (601) are located at the bottom of the front surface (602), and a distance between the lamination teeth (601) and the base (1) is closer than that between the back surface (603) and the base (1).

7. A 3D modeling device for eyelashes, comprising:

a base (1) serving as a bearing body in the process of 3D modeling of eyelashes, the base (1) having a first side and a second side:

a first support portion (2) mounted at the first side of the base (1);

a second support portion (3) mounted at the second side of the base (1);

a first elastic component (4) sleeved on the first support portion (2);

a second elastic component (5) sleeved on the second support portion (3);

a lamination portion (6) having lamination teeth (601); and

a bearing pad (7) having flexibility, the bearing pad (7) being used for placement of eyelashes;

a first sleeve (8) sleeved on the first support portion (2), and the first elastic component (4) being mounted in the first sleeve (8);

a second sleeve (9) sleeved on the second support portion (3), and the second elastic component (5) being mounted in the second sleeve (9);

the first sleeve (8) having a first chute (801), and the second sleeve (9) having a second chute (901);

one end of the lamination portion (6) being connected with the first elastic component (4) and doing reciprocating motion, in the first chute (801) in the elastic force direction of the first elastic component (4), and the other end of the lamination portion (6) being connected with the second elastic component (5) and doing reciprocating motion in the second chute (901) in the elastic force direction of the first elastic component (5).

8. The 3D modeling device for eyelashes according to claim 1, wherein the base (1) is high in middle and low in two sides.

9. The 3D modeling device for eyelashes according to claim 1, wherein the lamination teeth (601) are straight teeth, helical teeth, conical teeth, “herringbone” teeth, curved teeth, triangular teeth or inverted trapezoidal teeth.

10. The 3D modeling device for eyelashes according to claim 1, wherein the material of the bearing pad (7) is TPE, TPR, TPU, silica gel or rubber.