KR20160123633A - Nail art equipment and application of the interface device and a control method - Google Patents

Abstract

The present invention relates to an apparatus for interfacing a nail art device with an application which enables patterns to be formed on nails by mixing metal powder with a manicure solution, and moving a magnet along set pattern shapes in a state that the magnet is spaced apart from nails in a predetermined distance, and a method for controlling the apparatus. An apparatus for interfacing a nail art device with an application according to the present invention comprises: a power supply part which adjusts and distributes voltage to supply a power source required in the nail art device; a communication part which enables data applied from a smartphone used by a user to be applied to the nail art device by a Bluetooth method, and by which pairing is automatically made between the smartphone and the nail art device; a control part which realizes images including patterns, shapes, and others on nails of a user through the nail art device using the data applied from the smartphone; a display part which expresses exemplary images according to coordinate values applied through the communication part, and indicates an operation state of the nail art device such that the user is capable of checking the operation state of the nail art device; a sensor part which detects, in a non-contact state, shape and height measurements of the nails of the user; a shape realization part which enables up-down and left-right movements of the X-axis and the Y-axis to be proceeded in the form of a plane, proceeds the up-down and left-right movements correspondingly to variations according to the heights based on the Z-axis, and enables manicure to be coated on the nails in accordance with curved shapes of the nails based on the C-axis when realizing the shapes on the nails of the user; and a magnetism generation part which is not contacted with small areas of the manicure-coated nails to realize shapes of the nails by magnetism.

Description

[0001] NAIL ART APPARATUS AND CONTROL METHOD FOR NAIL ART APPARATUS AND APPLICATION [0002]

The present invention relates to an interface device and a control method for an interface device and a control method of a nail art device and an application, and more particularly to an interface device and a control method of a nail art device, To a nail art device for forming a pattern on a nail when moved, and an interface device and a control method for an interface device and a control method of an application.

In general, as society develops, consumers' desire for cosmetics increases day by day, and interest in nail art is getting more and more increasing. However, in nail art shop, And it is consumed a lot in the present situation.

[0003] Conventionally, some devices have been developed that quickly, simply, and inexpensively paint nails in the form of devices or vending machines.

However, the above-described conventional painting apparatuses merely transferred to the printing on the nail of a person instead of the printing function on the paper of the printer. That is, in the conventional painting apparatuses, the user puts his / her finger directly on the finger support site and directly places the finger on the finger support site in an optimal position, and then fixes the finger and the support finger so as not to move, It was merely a device that attempted to move and print, that is, to apply the paper printing method to the fingernail.

Conventional printing apparatuses have been disadvantageous in that they are not sophisticated and easily spread or erased due to the above-mentioned points. In addition, since the printing apparatuses frequently fail during operation, there is no profitability due to an increase in after-service cost, And most of all, there was a disadvantage that the user could not feel a sense of security under the situation where the nail of a person enters instead of the paper.

For example, the nail is a surface on which upper and lower curves are formed unlike paper. In the conventional painting apparatus, the positions of the fingers and the support are completely fixed, while the simultaneous movement of the printing means alone in the horizontal, vertical, Not only is it feasible physically, but even if possible, the printing means causes tremendous vibrations when printing, and even when using high quality inks, the ink is a fluid liquid and the principle of motion In order to print a case such as an oblique line in the case where there is a resultant force of all the moving forces only in the printing means rather than the entire movement by a separate object, the horizontal direction and the vertical direction must be moved in a right angle, There is a problem that the oblique line is formed in the same shape as the step.

Korean Registered Patent No. 10-1030390 (Published on April 13, 2011)

In order to solve the above-mentioned problems, the present invention provides a nail art apparatus and a device for interfacing and controlling an application, in which a metal powder is mixed in a manicure liquid to form a pattern on a nail while moving magnet in a pattern shape set at a predetermined interval. The purpose of the method is to provide.

According to an aspect of the present invention, there is provided an interface device for a nail art device and an application, comprising: a power supply part for adjusting and distributing a voltage to supply necessary power to the nail art device; A communication unit for enabling data to be applied to a smartphone used by a user to be applied to the nail art device by a Bluetooth method and automatically performing a pairing operation between the smart phone and the nail art device; A control unit that implements data including a pattern and a shape on a user's nail through a nail art device; A display unit for displaying an example image according to data applied through a communication unit and displaying an operation state of the nail art device so that the user can check the operation state; A sensor unit for detecting the shape of the nail of the user and the height of the nail in a non-contact state; When implementing the shape on the user's nail, the X-axis and Y-axis are moved in the vertical direction and the vertical movement is performed based on the X-axis and Y-axis. So as to form a shape; And a magnetic force generating part for non-contact with a small area of the nail to which the nail polish is applied and to realize a shape by a magnetic force.

The control unit of the present invention includes an MCU (Micro Controller Unit), a sensor control unit, a memory, a sensor, a sensor, and the like so that the data applied by the smart phone can be imaged on the nail of a user through a nail art device, The MCU includes a control unit, a conversion algorithm unit, and a control algorithm unit. The MCU includes a data memory for storing an image on a user's fingernail based on data received from a communication unit, a data display unit for displaying data, And the memory stores data according to an example image, a coordinate value, a user's nail shape, and a shape measurement value applied through the communication unit to implement an image on the nail in the shape implementation unit through the MCU, The shape of the nail, shape and height of the user can be controlled so that the shape of the nail in the memory, And the conversion algorithm unit converts the data applied by the application into an image form so that the data can be implemented according to the shape, shape and height of the user's nail, and applies the converted data to the MCU. The position value of the sensor unit is calculated so that the coordinate value converted to the nail shape, shape, and height of the user is implemented, and the shape implementation unit is controlled by the MCU based on the calculated data.

The conversion algorithm of the present invention is characterized in that it is changed into image data so as to be able to express a shape by receiving a coordinate value applied through an application.

The magnetic force generating unit of the present invention comprises a neolithium magnet for realizing an image by forming a magnetic force in a non-contact manner on a nail coated with a nail polish; And a non-magnetic autonomous body disposed at a position where the fingernail is positioned on the nail art device so that magnetic force is diffused.

The image of the present invention is generated by converting data composed of coordinate values applied through a Bluetooth scheme through an application.

A nail art device and an interface device control method according to the present invention can implement an image using an application in order to implement an image on a nail while a user operates an application of a smart phone and turns on a power supply to the nail art device A B mode in which an image is implemented using an A mode or a nail art device; Selecting an image provided by the application; Selecting an image to be implemented on the user's nail through the application while the A mode is selected, and transmitting the image to the nail art device using Bluetooth; A step 112 of inserting a finger for implementing an image into the nail art device in the state that the image is transmitted to the nail device and obtaining a position value according to the shape, shape and height of the nail by the sensor part; A step 113 of applying the manicure by driving the shape implementation unit through the conversion algorithm unit and the control algorithm unit and generating a magnetic force so that an image selected from the applied manicure is implemented; 120 is a flowchart illustrating a method for displaying an image according to an exemplary embodiment of the present invention; A step 121 of inserting a finger into the nail art device so that the image selected in the above process can be implemented on the nail art, and extracting a position value according to the shape, shape and height of the nail through the sensor part; A nail art device is installed in the state where the position value is extracted through the sensor part, the nail art is put back into the nail art device, the nail art is applied by the shape implementing part so that the selected image is realized, and the magnetic force is generated through the magnetic force generating part, The method comprising:

The image of the present invention is characterized in that coordinate values are included.

The present invention is characterized in that an image is implemented on a finger selected by a user by repeating the A mode or the B mode.

In the present invention, the image selected by the user in the mode A or mode B is converted into an image in the change algorithm, and the image is converted into an image by the horizontal drive, vertical drive, .

A nail art device according to the present invention comprises: a case having a base having a mouth for inputting a finger and a cover on which a display unit is installed; A Y football suspension part for moving the sensor part and the magnetic force generating part in the Y axis direction of the user's nail; An X-axis implementing unit movably installed in the Y-football transporter to move the sensor unit and the magnetic force generating unit in the X-axis direction; A C soccer base part installed on the X soccer base to rotate the sensor part and the magnetic force generating part corresponding to the curved surface of the user's nail; A Z soccer base part installed in the C soccer base part and controlling the movement of the magnetic force generating part so as not to touch the user's fingernail; An M soccer base part installed on the Z soccer base part and moving up and down so as to adjust the position of the magnetic force generating part to adjust the amount of magnetic flux lines; A sensor unit installed on the M soccer base so as to scan the shape and shape of the nail drawn into the case; And a magnetic force generating unit installed in the M soccer base to generate magnetic force on the nail polish applied to the nails to form a pattern selected by the user.

The Y football suspension portion of the present invention includes a plurality of brackets formed on both sides of the upper portion of the base panel, the horizontal members and the vertical members; A Y-axis motor fixed to the center portion between the plurality of brackets by a motor bracket so as to move the sensor unit and the magnetic force generating unit in the Y-axis direction; A power transmission gear installed at a rotary shaft of the Y-axis motor and positioned at one side of the motor bracket so as to move the sensor unit and the magnetic force generating unit through the power of the Y-axis motor; A power transmission bar having an interlocking gear and rotatably coupled to a driving force of a Y-axis motor and installed between a plurality of brackets; A plurality of Y-axis rollers installed at both ends of the power transmission rods and positioned on one side of the bracket; A plurality of Y-axis interlocking rollers rotatably installed on the other side of the bracket provided with the Y-axis roller; A plurality of Y-axis belts installed between the Y-axis roller and the Y-axis interlocking roller; And a Y-axis guide rod installed between the plurality of bracket vertical members and provided with an X-football suspension portion.

The X-football suspension unit of the present invention includes a plurality of X-axis fixing panels movably installed in a Y-axis guide rod and moved by a Y-axis belt; An X-axis motor installed in any one of the plurality of X-axis fixing panels to transmit power to move the sensor unit and the magnetic force generating unit in the X-axis direction of the user's nail; A plurality of X-axis rollers disposed on a rotary shaft of the X-axis motor and positioned on one side of the X-axis fixing panel and transmitting power of the X-axis motor; An X-axis belt installed between the plurality of X-axis rollers for moving the sensor unit and the magnetic force generating unit in the X-axis direction; And an X-axis guide bar provided at an upper portion and a lower portion between a plurality of X-axis fixing panels.

The C soccer base portion of the present invention includes: a C-axis fixed block movably installed in an X-axis guide bar and moved by an X-axis belt; And a C-axis motor for generating a driving force on one side of the C-axis fixed panel to rotate the magnetic force generating unit along a curved surface of a user's nail.

The Z-football base portion of the present invention includes a Z-axis bracket installed on a rotation axis of a C-axis motor so as to be able to rotate along a curved surface of a user's nail; A Z-axis actuator installed on the Z-axis bracket so as to control the height of the magnetic force generating unit so as not to touch the nail of the user; And a plurality of Z-axis guide rods mounted on the Z-axis bracket.

The M soccer base portion of the present invention includes an M-axis bracket formed of a horizontal panel and a vertical panel so as to be movable along the Z-axis guide bar in connection with the lead of the Z-axis actuator; An M-axis actuator fixed panel mounted on the vertical panel of the M-axis bracket; An M-axis actuator installed on the M-axis fixed panel so as to move the sensor unit and the magnetic force generating unit in the vertical direction; And an M axis fixed panel which moves in the vertical direction by driving the M axis actuator to move the sensor unit and the magnetic force generating unit.

Since the present invention realizes a desired image through a nail art device through an application or a nail art device, it is implemented in a manner similar to an image implemented in a nail shop, thereby reducing cost due to nail art.

In addition, since the cost of the nail art is low, the user can change the image according to his or her taste.

1 is a block diagram showing a configuration of an interface device between a nail art device and an application of the present invention.
2 is a flowchart showing a method of controlling an interface device between a nail art device and an application of the present invention.
3 is a perspective view showing a nail art apparatus according to the present invention.
FIG. 4 is a perspective view showing the configuration of the nail art device of FIG. 3 with the cover removed. FIG.
Figures 5 through 7 illustrate patterns embodied in the nail through the nail art device of the present invention.

While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof are shown by way of example in the drawings and will herein be described in detail.

It should be understood, however, that the invention is not intended to be limited to the particular embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

Like reference numerals are used for similar elements in describing each drawing. The terms first, second, etc. may be used to describe various components, but the components are not limited by the terms. The terms are used only for the purpose of distinguishing one component from another.

For example, the term "and / or" includes any combination of a plurality of related listed items or any of a plurality of related listed items.

Unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs.

Terms such as those defined in commonly used dictionaries are to be interpreted as having a meaning consistent with the meaning in the context of the relevant art and are to be construed as ideal or overly formal in meaning unless explicitly defined in the present application Should not.

The specific terminology used in the following description is provided to aid understanding of the present invention, and the use of such specific terminology may be changed into other forms without departing from the technical idea of the present invention.

Hereinafter, a configuration of an interface device and a control method of an interface device and a control method of a nail art device and an application according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram showing the configuration of an interface device between a nail art device and an application of the present invention.

1, an apparatus for interfacing a nail art device and an application according to the present invention includes a power supply unit 100, a communication unit 200, a control unit 300, a display unit 400, a sensor unit 500, A shape implementation unit 600, and a magnetic force generation unit 700.

The power unit adjusts and distributes the voltage to supply necessary power in the nail art device (100).

The adjustment transforms the DC power that has been downed to a certain voltage through the adapter to the power required by the communication unit 200 and the voltage required by the display unit 400 and the shape implementation unit 600.

The distribution is performed by dividing the required power from the communication unit 200 and the display unit 400.

The communication unit 200 allows the user to apply data from the smartphone used by the user to the nail art device in a Bluetooth manner and automatically performs pairing between the smart phone and the nail art device. The pairing is set for the first time so that the user can connect the smartphone and the nail art device in a Bluetooth manner. When the smart phone and the nail art device are adjacent to each other, the pairing is automatically set to be connected in a Bluetooth manner.

The communication unit 200 is not limited to the Bluetooth type, and may be a communication port such as a USB (Universal Serial Bus) terminal and an earphone terminal for communicating with a smartphone by receiving a pattern selected by a user by establishing a communication connection, , And near field communication (NFC) communication modules.

The control unit 300 includes an MCU 310, a memory 320, and a display unit 320 to implement images including patterns, shapes, and the like on a user's nail through a nail art device, A sensor control unit 330, a conversion algorithm unit 340, and a control algorithm unit 350.

 The MCU 310 stores data in a memory so that an image can be implemented on a user's nail based on data received from the communication unit 200, and controls the display unit to display, convert, and control the shape implementation unit.

The memory 320 may include an example image, a coordinate value, a user's nail shape, and a shape measurement value applied through the communication unit 200 to implement an image on the nail in the shape implementation unit 600 through the MCU 310 And stores the data.

The sensor control unit 330 controls the sensor unit 500 to measure the shape, shape and height of the user's nail and stores data values according to the shape, shape, and height of the nail in the memory 320.

The transformation algorithm unit 340 transforms coordinate values stored in the memory 320 into an image form so as to be implemented in accordance with the nail shape, shape, and height of the user, and applies the coordinate values to the MCU 310.

The control algorithm unit 350 calculates a position value of the sensor unit 500 so that an image corresponding to the shape, shape, and height of the user's nail is converted into an image form and converts the position value of the sensor unit 500 to an MCU 310 to control the feature implementer 600.

The display unit 400 displays an example image according to a coordinate value applied through the communication unit 200, and displays an operation state of the nail art device at present so that the user can confirm the operation state.

The sensor unit 500 is a capacitive proximity sensor that detects the shape of the user's nail and the height of the nail in a noncontact state. The data measured by the sensor unit 500 is supplied to the MCU 310 ).

The sensor is not limited to the proximity sensor, and any sensor may be used as long as it can acquire an image according to the shape and shape of the nail, such as a photo sensor, a CCD miniature camera, and a scanner.

When the shape of the user's nail is implemented, the shape implementation unit 600 moves the X-axis and the Y-axis in a planar manner to move up and down and left and right. To control the motor so as to apply the varnish to the curved shape.

In addition, the shape implementing unit 600 allows the magnetic force generating unit 700 to move such that the magnetic force is perpendicular to the M axis.

The magnetic force generating unit 700 can realize an image in a non-contact manner on a small area of the nail coated with the nail polish, and the magnetic force can be diffused by combining neodymium magnets and mu- do.

2 is a flowchart showing a method of controlling an interface device between a nail art device and an application of the present invention.

Referring to FIG. 2, the present invention can implement an image in a nail using two modes.

A device that selects whether to execute an application of a user's smartphone and turn on the power of the nail art device, perform an A mode of selecting an image through an application, or a B mode of selecting an image through a nail art device 100 < / RTI >

Step 110 (S110) is performed in which, when the user selects the mode A, the user selects an image to be implemented on his / her fingernail through the application.

A company providing the application can input a plurality of expressible images in the nail art device so that the user can view and select the images.

An image is selected through the application and is applied to the nail art device using Bluetooth (S111). The data applied to the nail art device is converted into an image to be implemented by the nail art device through the controller 300 to control the shape implementer 600.

After step 112 (S112), the user inserts his or her fingernail into the nail art device in the order of thumb, index finger, stop, finger, and back in the nail art device, And a step 113 (S113) of extracting the position value with respect to the height is performed.

In step 113 (S113), the user selects whether to form an image on all of his / her fingers or to implement an image on only a specific finger, and obtain data on the corresponding finger.

After step 113 (S113), the user inserts a nail to form an image on the nail, inserts the nail into the nail art device, applies the nail cure to the nail by the shape implementing part 600, (S114) of causing the image to be implemented through the image processing unit 700 is performed.

In step 114, the finger selected by the user is sequentially inserted and the nail polish is applied through the shape implementing unit 600 so that the image is implemented by the magnetic force generating unit 700.

As described above, there is an advantage that users can easily implement an image by operating an application.

In operation 120, the user selects an image to be displayed on his or her fingernail through the display unit 400 of the nail art device while selecting the B mode.

In operation 120, if the image provided by the nail art device does not have an image suitable for the user's taste, another image is selected and applied to the image. The image includes a heart-like shape, a number and a character .

In step 120, a finger is inserted into the nail art device so that the selected image is displayed on the nail. The sensor unit 500 extracts position values of the shape, shape, and height of the nail, (S121). ≪ / RTI > At this time, the data stored in the memory 320 stores the user's nail data based on the image rather than the data based on the user's finger.

After the data of the user's nail is obtained through the operation S121, the user applies the nail polish to the finger by the shape implementing unit 600, and the coated nail polish is moved to the image selected by the magnetic force generating unit 700 Step 122 (S122) is performed so as to be implemented in the fingernail.

In operation 120, operations 122 through 122 may be repeated for each finger of the user so that an image is displayed on the fingernails of the respective fingers.

FIG. 3 is a perspective view showing a nail art apparatus according to the present invention, FIG. 4 is a perspective view showing a state in which a cover of the nail art apparatus of FIG. 3 is removed, Fig.

3 to 7, the nail art device of the present invention comprises a case 10 having an inlet through which fingers are inserted and composed of a base panel 11 and a cover 12, In the upper portion, a display unit 400 for selecting and driving a pattern formed on a nail on the menu and performing on / off operation of the nail art device is formed.

A sensor unit 500, a shape implementing unit 600 and a magnetic force generating unit 700 are formed inside the case 10 and a finger guide 14 is provided at an entrance of the case 10 to guide a finger. So that the user's fingers can be positioned at the correct position of the nail art device.

A power connection jack 15 may be installed on the rear side of the case 10 so as to apply power required by the sensor unit 500, the shape implementation unit 600 and the magnetic force generation unit 700, A connector 16 is installed at one side of the sensor unit 500 to control and communicate the sensor unit 500, the shape implementation unit 600 and the magnetic force generation unit 700.

The magnetic force generating part 500 is installed on one side of the shape implementing part 600 and is located above the base 11 and includes a sensor part 500 for scanning the shape and shape of the nail drawn into the case 10 And the sensor unit 500 may be configured as any one of a proximity sensor, a photo sensor, a CCD miniature camera, and a scanner.

The sensor unit 500 is not limited to the proximity sensor, the photo sensor, the CCD miniature camera, and the scanner, but may be a sensor capable of acquiring images of the shape and shape of the fingernail and data on the height .

The shape implementing unit 600 includes a Y football moving part 610 for moving the sensor part 500 and the magnetic force generating part 700 in the Y axis direction of the user's nail and a Y football moving part 610 for moving the Y football moving part 610 And a sensor unit 500 and a magnetic force generation unit 700 installed in the X-football suspension unit 620. The sensor unit 500 and the magnetic force generation unit 600 are disposed on the X- A C soccer base part 630 for rotating the C game soccer base 630 corresponding to the curved surface of the user's nail and a Z soccer base part 640 for controlling the movement of the magnetic force generating part 700 so as not to touch the nail of the user, And an M soccer base 650 installed at the Z soccer base 640 and moving up and down so as to adjust the magnetic flux line by adjusting the position of the magnetic force generating unit 700.

A plurality of brackets 611 including a horizontal member 611-1 and a vertical member 611-1 are provided on both sides of the upper portion of the base panel 11 and the Y, A Y-axis motor 612 fixed by a bracket 611 is provided at a central portion between a plurality of brackets 611 so as to move the magnetic force generating part 700 in the Y-axis direction, A power transmission gear 613 is provided to the Y-axis motor 612 so as to transmit the power of the Y-axis motor 612 to the X- A plurality of Y-axis rollers 615 disposed on one surface of the bracket 611 are disposed between a plurality of brackets 611 with a power transmission rod 614 having an interlocking gear 614-1 so as to be rotatable, A plurality of Y-axis interlocking rollers 616 are provided on the other side of the bracket 611 on which the Y-axis rollers 615 are installed, and a plurality of Y- A Y-axis belt 617 is provided between the Y-axis interlocking roller 616 and the Y-axis interlocking roller 616 and a Y-axis gutter 618 provided between the vertical members 611-2 of the bracket 611 do.

The X-football transducer 620 is provided with a plurality of X-axis fixing panels 621 which are moved by the Y-axis belt 617 so as to be movable in the Y-axis guide rods 618, An X-axis motor 622 for transmitting power to move the sensor unit 500 and the magnetic force generating unit 700 is installed in any one of a plurality of X axis fixing panels 621. The X axis fixing panel 621 A plurality of X-axis rollers 623 are disposed on the rotary shaft of the X-axis motor 622 so as to transmit the power of the X-axis motor 622, and the sensor unit 500 and the magnetic force generating unit 700 Axis fixing rollers 623 are disposed between a plurality of the X-axis rollers 623 and the X-axis belt 624 for moving the X- (625).

The C-football transporter 630 is provided with a C-axis fixing panel 631 which is moved by the X-axis belt 624 so as to be movable in the X-axis guide rod 625, And a C-axis motor 632 that generates a driving force to rotate the magnetic force generating unit 700 along the curved surface of the user's nail.

The Z-football transducer 640 is installed on the rotary shaft of the C-axis motor 632 so that the Z-axis bracket 641 can rotate along the curved surface of the user's nail, and the magnetic force generating part 700 touches the nail of the user And a Z-axis guide rod 643 is installed on the Z-axis bracket 641 and installed in the Z-axis bracket 641 in such a manner that the Z-axis actuator 642 can control the height of the Z-

The M-soccer base 650 includes an M-axis bracket 651 composed of a horizontal panel 651-1 and a vertical panel 651-2 so as to be movable along the Z-axis guide rods 643 as a Z-axis actuator The M-axis actuator fixing panel 652 is installed on the vertical panel 651-2 of the M-axis bracket 651 and the sensor unit 500 and the magnetic force generating unit 600 are connected to the lead of the M- Axis actuator 653 so that the M-axis actuator 653 can move in the vertical direction and the M-axis actuator 653 moves in the vertical direction by driving the M-axis actuator 653, And an M axis fixed panel 654 for moving the magnetic force generating unit 700. [

The action of implementing an image on the fingernail through the application and the nail art device through the above-described method is as follows.

The operation of the nail art device and the interface device with the application according to the present invention will be described.

The user installs an application on his smartphone to operate the nail art device, and allows the pairing with the nail art device using the Bluetooth method.

The application is stored in the smartphone and is operated to select an image desired by the user, and the selected image is applied to the communication unit 200 of the interface device of the nail art device.

The data applied to the communication unit 200 is stored in the memory 320 of the control unit 300 and the data stored in the memory 320 is transmitted to the sensor control unit 330 in the form of an image And applies the converted signal to the MCU 310.

The MCU 310 drives the 5-axis motor and the actuator constructed in the shape implementation unit 600 through the control algorithm unit 350 based on the data applied from the sensor control unit 330, To form an image.

Before applying the manicure, the user first acquires position values of the nail shape, shape, and curved shape of the user through the nail art device so that the image selected by the user is implemented on the nail.

The user inserts the nail art device in order of thumb, index finger, stop finger, and so on so that the nail art device can acquire the position value of the nail art. To measure the position value.

The nail data measured through the sensor unit 500 is applied to and stored in the memory 320. The MCU 310 uses the coordinates stored in the memory 320 as coordinate values applied by the application to the user's fingernail Converts into image format.

And controls the driving of the motor of the shape implementation unit 600 through the control algorithm unit 350 based on the data converted through the conversion algorithm unit 340. The shape implementation unit 600 implements an image on the user's nail through the control of the MCU 310.

At this time, the shape implementing unit 600 applies the nail polish to the nail while driving in the X-axis (horizontal direction), Y-axis (vertical direction) and C-axis (curved surface) directions. An image is formed on the nail coated with the nail polish through the magnetic force generating unit 700.

The process of forming an image on the nail will be described with reference to the shape implementation unit 600.

The user inserts his or her finger into the inlet 13 formed on one side of the case 10 so that the user can form the nail according to the display 400 installed on the case 10 or the application selected through the application. At this time, the finger nail is located at a position where the sensor unit 500 and the magnetic force generating unit 700 are located by the finger guide 14 formed at the inlet 13 as described above.

When the nail is positioned at the position where the sensor unit 500 and the magnetic force generating unit 600 are installed, the Y footballs 610 and the X footballs 620 are arranged so that the patterns selected by the application and the display unit 400 can be expressed on the nails, The position of the magnetic force generating portion is controlled primarily by the driving of the magnetic force generating portion.

The Y-football section 610 rotates the Y-axis roller 615 by the rotation of the power transmission gear 613 and the interlocking gear 614 by driving the Y-axis motor 613 to rotate the Y-axis belt 617 And the X axis fixing panel 621 fastened to the Y axis belt 617 moves along the Y axis guide rod 618.

When the X-axis fixing panel 621 is moved along the Y-axis guide rods 618, the magnetic force generating part 600 installed in the M-footballs 650 moves in the Y-axis direction, So that a predetermined pattern is formed.

The X football moving part 620 provided in the Y football moving part 610 also moves the C football moving part 630 along the X axis guide rod 625 by driving the X axis motor 622, A magnetic force is generated in the manicure so that a pattern is formed while moving in the X-axis direction.

As described above, the Y-axis and X-axis directions form a pattern on the nails by interlocking the Y footballs 610 and the X-footballs 620.

The pattern formed on the curved portion of the fingernail is formed by driving the C-axis motor 632 of the C-football transflector 630 such that the magnetic force generating portion 700 is rotated at the curved portion so that the Y- So that the pattern is formed to be interlocked with the base portion 620.

It is possible to prevent the Z catching portion 640 from touching the top of the nail when the Y football catcher 610, the X football catcher 620 and the C football catcher 630 are simultaneously driven to form a pattern on the nail, And the position of the magnetic force generating unit 700 is adjusted by adjusting the intensity of the magnetic force through the soccer base 650.

The position of the magnetic force generating unit 700 is determined by the M-axis actuator 653 of the M-soccer base 650, and the position is based on the data set by the display unit 400 and the application .

As described above, by mutual interlocking operation of the Y football suspension 610, the X football suspension 620, the C football suspension 630, the Z football suspension 940, and the M football suspension 650, The pattern is formed on the nail as shown.

The pattern formed on the nail is not limited to the pattern shown in Figs. 5 to 7, and various patterns are provided by the manufacturer, and the pattern is additionally provided to the users via the application or the web site for a fee or free of charge .

As described above, according to the present invention, since an image desired by a user is implemented through a nail art device through an application or a nail art device, it can be implemented almost like an image implemented in a nail shop, There are advantages.

In addition, since the cost of nail art is low, the user can change the image according to his or her taste.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood that various modifications and changes may be made thereto without departing from the scope of the present invention.

10: Case 11: Base
12: cover 13: inlet
14: Finger guide 15: Power connection jack
16: connector 100:
200: communication unit 300:
310: MCU 320: Memory
330: sensor control unit 340: conversion algorithm unit
350: control algorithm section 400: display section
500: sensor unit 600: shape implementation unit
610: Y football stitch 611: Bracket
612: Y-axis motor 613: Power transmission gear
614: Power transmission rod 614-1: Interlocking gear
615: Y-axis roller 616: Y-axis interlocking roller
617: Y-axis belt 618: Y-axis guide rod
620: X-football suspension 621: X-axis fixed panel
622: X-axis motor 623: X-axis roller
624: X-axis belt 625: X-axis guide rod
630: C soccer hoop 631: C axis fixing panel
632: C-axis motor 640: Z-football suspension
641: Z-axis bracket 642: Z-axis actuator
643: Z-axis guide rod 650: M soccer wing
651: M-axis bracket 651-1: horizontal panel
651-2: Vertical panel 652: M axis actuator fixed panel
653: M axis actuator 654: M axis fixed panel
700: magnetic force generator

Claims (15)

1. An interface device for a nail art device and an application,
A power supply unit 100 for adjusting and distributing a voltage to supply necessary power to the nail art device;
A communication unit 200 for allowing data to be applied to a smartphone used by a user to be applied to the nail art device by a Bluetooth method and automatically performing pairing between the smart phone and the nail art device;
A control unit 300 for embodying data including a pattern and a shape on the nail of a user through a nail art device;
A display unit 400 displaying an example image according to data applied through the communication unit 200 and displaying the operation status of the nail art device so that the user can check the operation status;
A sensor unit 500 for detecting the shape of the user's nail and the height of the nail in a non-contact state;
When implementing the shape on the user's nail, the X-axis and Y-axis are moved in the vertical direction and the vertical movement is performed based on the X-axis and Y-axis. (600);
A magnetic force generating part 700 for realizing a shape by a magnetic force in a non-contact state on a small area of the nail coated with the nail polish;
And an interface between the nail art device and the application.
The method according to claim 1,
The control unit 300
(MCU) 310, a memory 320, a sensor control unit 330, and a microcontroller unit 330 so as to implement an image including a pattern and a shape on the nail of a user through a nail art device, A conversion algorithm unit 340, and a control algorithm unit 350,
The MCU 310 stores data in a memory 320 so that an image can be implemented on a user's nail based on data received from the communication unit 200. The MCU 310 displays data on the display unit 400, The implementation unit 600 is controlled,
The memory 320 stores data corresponding to an example image, a coordinate value, a user's nail shape, and a shape measurement value applied through the communication unit to implement an image on the nail in the shape implementer 600 through the MCU 310 In addition,
The sensor control unit 330 controls the measurement of the shape, shape and height of the nail of the user to store data values according to the shape, shape and height of the nail in the memory 320,
The conversion algorithm unit 340 transforms data applied to the application into an image form so as to be implemented in accordance with the nail shape, shape, and height of the user, and applies the converted data to the MCU 310,
The control algorithm unit 350 calculates a position value of the sensor unit 500 so that an image corresponding to the shape, shape, and height of the user's nail is converted into an image form and converts the position value of the sensor unit 500 to an MCU 310) to control the shape implementation (600).
3. The method of claim 2,
The conversion algorithm unit 340
Wherein the image data is converted into image data so as to receive a coordinate value applied through an application and to express a shape.
The method according to claim 1,
The magnetic force generator 700 includes:
A neolithium magnet for realizing an image by forming a magnetic force in a non-contact manner on a nail to which a nail polish is applied;
Magnetic metal autonomous body installed at a place where nails are placed on a nail art device so that magnetic force is diffused;
And an interface device for interfacing with the nail art device and the application.
The method according to claim 1,
The image
Wherein the data is generated by converting data having coordinate values applied through a Bluetooth application to an application.
A device control method for an interface with a nail art device and an application,
A mode in which an image is implemented using an application or a B mode in which an image is implemented using a nail art device in order to implement an image in a nail while a user operates an application of a smart phone and turns on a power supply to the nail art device (S100);
Step 110 (S110) of selecting an image provided by the application;
An S111 step of selecting an image to be imaged on the nail of the user through the application and transmitting the image to the nail art device using Bluetooth;
A step 112 (S112) of inserting a finger for implementing an image into the nail art device in the state that the image is transmitted to the nail device and obtaining a position value according to the shape, shape and height of the nail by the sensor part 500;
The data corresponding to the position value is applied to the nail polish by driving the shape implementing unit 600 through the conversion algorithm unit 340 and the control algorithm unit 350 so that the image selected from the applied nail polish is implemented (S113);
A step 120 (S120) of selecting an image to be implemented on the fingernail through the display unit 400 while the B mode is selected in the above process;
Step 121 (S121) of extracting a position value according to the shape, shape, and height of the nail through the sensor unit 500 by inserting a finger into the nail art device so that the selected image can be implemented on the nail of the user;
The nail art device is put back into the nail art device in a state where the position value is extracted through the sensor part 500 to apply the nail polish to the shape implement part 600 so that the selected image is realized and the magnetic force is generated through the magnetic force generating part 700 (S122) for causing an image to be formed on the nail polish;
And a control unit for controlling the interface between the nail art device and the application.
The method according to claim 6,
The image
Wherein the coordinate values are included in the nail art device.
The method according to claim 6,
And repeating the A mode or the B mode to implement an image on a finger selected by a user.
The method according to claim 6,
In the A mode or B mode
In the conversion algorithm unit (S340), the image selected by the user is converted into an image,
Wherein the image is implemented by a horizontal drive, a vertical drive, a height change, and a rotation drive through the shape implementing unit (600) through the control of the controller (300).
In the nail art device,
(10) having a base (11) and a cover (12) on which a display unit (400) is installed;
A Y soccer base 610 for moving the sensor unit 500 and the magnetic force generating unit 700 in the Y axis direction of the user's nail;
An X-axis implementing unit 620 movably installed in the Y-football transducer 610 to move the sensor unit 500 and the magnetic force generating unit 700 in the X-axis direction;
A C soccer base part 630 installed in the X football prefecture 620 for rotating the sensor part 500 and the magnetic force generating part 700 in accordance with the curved surface of the user's nail;
A Z soccer base portion 640 installed in the C football running portion 630 to control the movement of the magnetic force generating portion 700 so as not to touch the fingernail of the user;
An M soccer base 650 installed in the Z soccer base 640 so as to adjust the position of the magnetic force generating unit 700 so as to adjust the amount of magnetic flux lines;
A sensor unit 500 installed on the M-soccer base to scan the shape and shape of the nail drawn into the case 10;
A magnetic force generating unit 700 installed in the M soccer base 650 to generate magnetic force on the nail polish applied to the nails to form a pattern selected by a user;
The nail art device comprising:
11. The method of claim 10,
The Y soccer base portion 610
A plurality of brackets 611 made up of a horizontal member 611-1 and a vertical member 611-2 on both sides of the base 11;
A Y-axis motor 612 mounted on the motor bracket 612-1 at a central portion between the plurality of brackets so as to move the sensor unit 500 and the magnetic force generating unit 700 in the Y-axis direction;
A power transmission gear 613 disposed at one side of the motor bracket 612-1 so as to move the sensor unit and the magnetic force generating unit through the power of the Y axis motor 612, ;
A power transmission rod 614 having an interlocking gear 614-1 which is engaged with the power transmission gear 613 and can be rotated by the driving force of the Y axis motor 612 and installed between the plurality of brackets 611, ;
A plurality of Y-axis rollers 615 installed on both sides of the power transmission rod 614 and positioned on one side of the bracket 611;
A plurality of Y-axis interlocking rollers 616 rotatably installed on the other side of the bracket 611 provided with the Y-axis rollers 615;
A plurality of Y-axis belts 617 installed between the Y-axis roller 615 and the Y-axis interlocking roller 616;
A Y-axis guide rod 618 installed between the plurality of brackets 611 and the vertical member 611-2 to mount the X-football suspension 620;
Wherein the nail art device comprises:
11. The method of claim 10,
The X-football transflector 620 includes:
A plurality of X axis fixing panels 621 movably installed on the Y axis guide rods 618 and moved by the Y axis belts 617;
An X-axis motor 622 installed in any one of the plurality of X-axis fixing panels 621 and transmitting power to move the sensor unit 500 and the magnetic force generating unit 700 in the X-axis direction of the user's nail;
A plurality of X-axis rollers 623 disposed on a rotating shaft of the X-axis motor 622 and positioned on one side of the X-axis fixing panel 621 and transmitting the power of the X-axis motor 622;
An X-axis belt 624 disposed between the plurality of X-axis rollers 623 to move the sensor unit 500 and the magnetic force generating unit 700 in the X-axis direction;
An X-axis guide rod 625 installed at an upper portion and a lower portion between a plurality of X-axis fixing panels 621;
The nail art device comprising:
11. The method of claim 10,
The C soccer base portion 630
A C-axis fixing panel 631 movably installed on the X-axis guide rod 625 and moved by the X-axis belt 624;
A C-axis motor 632 for generating a driving force to rotate the magnetic force generating part 700 along the curved surface of the user's nail, at one side of the C-axis fixing panel 631;
The nail art device comprising:
11. The method of claim 10,
The Z soccer base portion 640
A Z-axis bracket 641 mounted on the rotational axis of the C-axis motor 632 so as to be able to rotate along the curved surface of the user's nail;
A Z-axis actuator 642 installed on the Z-axis bracket 641 to control the height of the magnetic force generating unit 700 so as not to touch the user's fingernail;
A plurality of Z-axis guide rods 643 installed on the Z-axis bracket 642;
The nail art device comprising:
11. The method of claim 10,
The M soccer base 650 may include:
An M-axis bracket 651 including a horizontal panel 651-1 and a vertical panel 651-2 so as to be movable along the Z-axis guide rods 643 in connection with the leads of the Z-axis actuators 642;
An M-axis actuator fixing panel 652 mounted on the vertical panel 651-2 of the M-axis bracket 651;
An M-axis actuator 653 installed above the M-axis fixed panel so as to move the sensor unit 500 and the magnetic force generating unit 700 in the vertical direction;
An M axis fixing panel 654 that moves in the vertical direction by driving the M axis actuator 653 to move the sensor unit 500 and the magnetic force generating unit 700;
Wherein the nail art device comprises:

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