JP-2026075090-A - Eyelash extension system

Abstract

[Problem] The present invention relates to a system and method for eyelash extensions, and more particularly to an eyelash extension system that uses a smart sensor applicator to automatically adjust the adhesive length of the glue according to the thickness and density of natural eyelashes, and to control the adhesive strength and curing time of the glue in real time according to environmental factors. [Solution] The present invention includes a coating guide module and a circular rotating part, and an eyelash fastening part that can adjust the angle of the artificial eyelash in units of 0.1 degrees, and includes a technology to improve the accuracy and durability of eyelash extensions. [Selection Diagram] Figure 1

Inventors

• パク スジン

Assignees

• パク スジン

Dates

Publication Date

20260507

Application Date

20251021

Priority Date

20241021

Claims (6)

1. An eyelash extension system that includes a method for applying glue (and adhesive) without clumping, by setting the glue application length between 1.5 mm and 2.5 mm when attaching artificial eyelashes to natural eyelashes, and by sensing the thickness and density of the natural eyelashes using a smart sensor applicator device.
2. The process involves using a smart sensor applicator device to measure the thickness and density of natural eyelashes, and automatically setting the adhesive length of the glue. A step of using a smart sensor applicator device that senses external environmental factors such as temperature and humidity and adjusts the adhesive strength and curing time of the glue in real time, The eyelash extension system according to claim 1, comprising the step of adjusting the angle of the eyelashes using an application guide module that can adjust the angle in increments of 0.1 degrees when attaching artificial eyelashes to natural eyelashes.
3. When applying eyelash extensions, in order to protect the eyelash cuticles, a cuticle protective coating agent is applied to the natural eyelashes before attachment. After the glue is applied between the natural and artificial eyelashes, a photocuring step is performed using UV or LED light to cure the glue. The procedure involves dividing the eyelashes into three layers—upper, middle, and lower—and attaching artificial eyelashes of different lengths and angles to each layer to perform multi-layer eyelash extensions. The eyelash extension system according to claim 2, comprising the step of ensuring that each layer of artificial eyelashes is attached independently, and after the procedure, forming volume and three-dimensionality of the eyelashes.
4. The aforementioned coating guide module is A module support body is provided, which is shaped to support the module in order to install it in a predetermined position, Module extension protrusions are formed to extend vertically at predetermined intervals along the upper corners of the module support body, A circular rotating part is installed on the upper part of the module extension projection, The eyelash extension system according to claim 3, characterized in that when the circular rotating part attaches the artificial eyelash, the angle is adjusted in units of 0.1 degrees to adjust the adhesion angle with the natural eyelash.
5. The aforementioned circular rotating part is A module circular rail is provided, the lower part of which is fixed to the upper part of the module extension projection and arranged horizontally, A rail movement groove is provided, which is formed along the periphery of the module circular rail and forms a space from which a circular moving ball can move, A ball support shaft is installed so as to connect the central parts of the circular moving balls at predetermined intervals, The ball support shaft passes through the central part, and a circular rotating roller is provided so as to rotate while the ball support shaft is supported, and contact the outer edge of the periphery of the fastening ball, thereby rotating the fastening ball. An eyelash fastening section is installed on the top of the aforementioned circular module rail, and is provided for the application of adhesive, in which eyelashes are inserted and fastened to curl the eyelashes, and the adhesive is applied evenly while the shape of the eyelashes is deformed. An eyelash application section is provided on the periphery or one side of the ring-shaped body of the fastening portion, for applying adhesive to the eyelashes fastened by the eyelash fastening portion, or for inducing the curling of the eyelashes. The eyelash extension system according to claim 4, characterized in that the circular moving ball rotates during application to ensure that the adhesive is applied evenly.
6. The aforementioned eyelash fastening portion is, A fastening support bracket is provided, the lower part of which is fixed to the upper part of the module circular rail, the lower part of which is open, and the circular rotating roller is provided with a hole through which it contacts the outer edge of the fastening ball, A ring-shaped fastening body is provided, which is positioned horizontally above the fastening support bracket and is fastened in multiple units together with the fastening connecting frame, A body pivot shaft is inserted through both sides of the fastening ring-shaped body toward the fastening support bracket and is provided to support the rotation of the fastening ring-shaped body, A ball-holding groove is provided in the central part of the fastening ring-shaped body, forming a space on which the fastening ball can be placed and a space on which the eyelashes can be fastened, Ball cushioning portions are provided to mitigate the impact applied to the fastening ball, and are installed at predetermined intervals along the inner surface of the peripheral edge of the fastening ring-shaped body. The body includes a fastening connecting frame, one end of which is rotatably fastened to the body pivot shaft, and the other end of which is provided such that the configuration of the eyelash fastening portion is repeatedly installed. The aforementioned modular circular rail is The circular moving ball forms a space in which it can roll and rotate. The aforementioned circular moving ball is They are fastened at predetermined intervals so as to be movable along the rail movement groove, The ball moves along the rail movement groove while being supported by the ball support shaft, The aforementioned ball support shaft is A hole is made through the central part of the circular rotating roller to support the rotation of the circular rotating roller. The aforementioned circular rotating roller is As the circular moving ball moves along the rail moving groove, the area of contact between the circular rotating roller and the outer edge of the fastening ball is adjusted accordingly, causing the fastening ball to rotate at multiple angles. The fastening support bracket is Both sides form a triangular space in which the fastening ring-shaped body can rotate. The fastening ball is The ball is placed in the ball placement groove and supported by a plurality of ball cushioning parts, It is rotatably mounted and in contact with the outer edges of the periphery of each of the different fastening balls, causing the different fastening balls to rotate. The eyelash extension system according to claim 5, characterized in that it contacts the eyelashes housed in the ball-holding groove to guide fastening or induce curling.

Description

This invention relates to a system and method for eyelash extensions, and more particularly to an eyelash extension system that uses a smart sensor applicator to automatically adjust the adhesive length of the glue according to the thickness and density of natural eyelashes, and to control the adhesive strength and curing time of the glue in real time according to environmental factors. Furthermore, the present invention includes a coating guide module and a circular rotating section, and an eyelash fastening section, which allow for adjustment of the angle of the artificial eyelashes in increments of 0.1 degrees, and includes a technique to improve the accuracy and durability of eyelash extensions. Eyelash extensions play a very important role in the beauty industry, and techniques have been developed to attach artificial eyelashes to natural eyelashes in various ways, creating a voluminous and beautiful appearance. Traditionally, eyelash extension methods primarily involved attaching artificial eyelashes using adhesive of a fixed length, with manual adjustment of the attachment angle and position being common. However, this conventional method, which applies adhesive in the same way without considering the user's eyelash condition or environmental factors, may not be able to maintain adequate adhesion between natural and artificial eyelashes. Furthermore, manual angle adjustment methods require skilled technicians, making precise angle adjustments difficult and potentially resulting in asymmetrical or uneven attachment of the artificial eyelashes. Therefore, the need arose for an improved system that can automatically adjust the glue application length according to the condition of the eyelashes and perform eyelash extensions precisely, taking into account angle and environmental conditions. This figure shows an example of a procedure according to the present invention.This figure shows an example of a procedure according to the present invention.This figure shows an example of a procedure according to the present invention.This figure shows an example of a procedure according to the present invention.This figure shows an example of a procedure according to the present invention.This diagram illustrates the detailed configuration of the coating guide module according to the present invention.This diagram illustrates the detailed configuration of the coating guide module according to the present invention.This diagram illustrates the detailed configuration of the coating guide module according to the present invention. The following describes various embodiments in more detail with reference to the accompanying drawings. The embodiments described herein can be modified in various ways. Certain embodiments may be illustrated in the drawings and described in detail in the detailed description. However, the specific embodiments disclosed in the accompanying drawings are intended to facilitate understanding of the various embodiments. Therefore, the specific embodiments disclosed in the accompanying drawings should not be understood as limiting the technical idea, but rather as encompassing all equivalents or substitutes within the concept and technical scope of the invention. Terms including ordinal numbers, such as "first," "second," etc., can be used to describe various components, but such components are not limited by the terms mentioned above. The terms mentioned above are used solely for the purpose of distinguishing one component from others. In this specification, terms such as “includes” or “having” should be understood to indicate the presence of features, figures, steps, actions, components, parts, or combinations thereof described in the specification, without prejudice to the existence or possibility of adding one or more other features, figures, steps, actions, components, parts, or combinations thereof. When a component is referred to as “connected” or “linked” to another component, it should be understood that it may be directly connected or linked to the other component, but other components may also be present in between. Conversely, when a component is referred to as “directly connected” or “directly linked” to another component, it should be understood that no other components are present in between. On the other hand, a “module” or “part” used herein performs at least one function or operation. Furthermore, a “module” or “part” can perform a function or operation through hardware, software, or a combination of hardware and software. Also, multiple “modules” or “parts” other than those that must be performed on specific hardware or on at least one processor can be integrated into at least one module. A singular expression includes plural expressions unless the context clearly indicates otherwise. Furthermore, the power, power transmission, and control thereof for the following assembly configurations and embodiments, including those involving "control," follow prior art, including terminal