JP7067036B2 - Drawing device and control method of drawing device - Google Patents

Description

The present invention relates to a drawing apparatus and a method for controlling the drawing apparatus.

Conventionally, there is known a drawing device that draws on a fingernail using an inkjet drawing head or the like (see, for example, Patent Document 1).
By using such a drawing device, anyone can easily enjoy nail printing without using a nail salon or the like.

However, in such a drawing device, if the drawing area of the nail to be drawn is not accurately detected, ink may squeeze out to a part other than the nail and stain the finger or the like, or conversely, the drawing may be performed in a narrower range than the actual nail. In some cases, the finish may not be beautiful due to the appearance of unpainted areas.
Therefore, it is conceivable to photograph the nail with an imaging device and detect the drawing area of the nail from the acquired nail image.

Special Table 2003-534083 Gazette

However, when the drawing target is photographed by the photographing device, if the drawing object is located at a position deviated from the optical axis of the lens of the photographing device, the height of the drawing target changes from the optical axis of the lens of the photographing device. The larger the deviation of the position of the drawing target, the larger the error in the size and shape of the drawing target in the captured image.

The present invention has been made in view of the above circumstances, and the detection accuracy of the size and shape of the drawing target in the captured image is lowered based on the positional deviation of the drawing target from the optical axis of the lens of the imaging device. It is an object of the present invention to provide a drawing apparatus and a control method of the drawing apparatus capable of suppressing the above.

In order to solve the above problems, the drawing device of the present invention has a fingernail holding portion, and a region of the finger having the nail to be drawn on the side with the nail is located on the lower surface of the fingernail holding portion. A finger fixing mechanism for fixing the finger in contact with the nail, a photographing unit having a photographing lens and acquiring a nail image by photographing the nail, and a position of the optical axis of the photographing lens with respect to the nail are changed. The light of the photographing lens based on the moving mechanism for moving the photographing unit and the first nail image obtained by photographing the nail by the photographing unit with the finger fixed to the finger fixing mechanism. The position of the base portion of the nail is provisionally detected with respect to the axis, and the photographing portion is set so that the optical axis of the photographing lens is located at the base portion of the nail based on the temporarily detected position of the base portion of the nail. It is provided with a control unit for detecting the position of the base portion of the nail with respect to the optical axis of the photographing lens based on the second nail image obtained by moving the photographing unit and photographing the nail. It is characterized by.

INDUSTRIAL APPLICABILITY According to the present invention, it is possible to provide a drawing device and a control method for the drawing device, which can suppress a decrease in detection accuracy of the size and shape of a drawing target in a captured image.

It is a perspective view which shows the appearance structure of the nail printing apparatus in this embodiment. It is a perspective view of the main part which showed the internal structure by removing the housing from a nail printing apparatus. It is a cross-sectional view of a main part which shows the positional relationship between a fingernail and an optical axis of a photographing apparatus. It is explanatory drawing which shows the relationship between the drawing target surface and the optical axis. It is a table which shows the relationship between the distance from the optical axis of the drawing target surface, and the amount of error when it deviates in the height direction. (A) is an explanatory diagram showing an example of a captured image when the drawing target surface is not tilted, and (b) is an explanatory diagram showing an example of a captured image when the drawing target surface is tilted toward you. (C) is an explanatory diagram showing an example of a captured image when the drawing target surface is tilted to the back side. It is a block diagram of the main part which showed the control composition of the nail printing apparatus which concerns on this embodiment. It is a flowchart which shows the drawing process in this embodiment. It is a cross-sectional view on the main part side showing a modification of the finger fixing mechanism, (a) shows a state where the position of the drawing target surface and the position of the optical axis are deviated, and (b) is the position of the drawing target surface. And the position of the optical axis match.

An embodiment of the drawing apparatus according to the present invention will be described with reference to FIGS. 1 to 8.
Although the embodiments described below are provided with various technically preferable limitations for carrying out the present invention, the scope of the present invention is not limited to the following embodiments and illustrated examples.
Further, in the following embodiment, the case where the drawing device is a nail printing device that draws on the fingernail of the hand as a drawing target will be described as an example, but the drawing target of the drawing device in the present invention is the finger of the hand. The drawing target is not limited to the nail, and for example, the nail of the toe may be drawn. Further, objects other than nails, such as nail tips and the surfaces of various accessories, may be drawn.

FIG. 1 is an external perspective view of a nail printing device which is a drawing device in the present embodiment.
As shown in FIG. 1, the nail printing device 1 in the present embodiment has a housing 11 formed in a substantially box shape.
An operation unit 12 is installed on the upper surface (top plate) of the housing 11.
The operation unit 12 is an input unit in which the user performs various inputs.
The operation unit 12 has, for example, a power switch button for turning on the power of the nail printing device 1, a stop switch button for stopping the operation, a design selection button for selecting a design image to be drawn on the claw T, and a drawing start for instructing the start of drawing. Operation buttons for performing various inputs such as buttons are arranged.

Further, a display device 13 is installed on the upper surface (top plate) of the housing 11.
The display device 13 is composed of, for example, a liquid crystal display (LCD), an organic electroluminescence display, or a flat display.
In the present embodiment, the display device 13 has, for example, a nail image obtained by photographing the finger U1 (a finger image including an image of the nail T), a contour line of the nail T included in the nail image, and the like. An image, a design selection screen for selecting a design image to be drawn on the nail T, a thumbnail image for design confirmation, an instruction screen for displaying various instructions, and the like are appropriately displayed.
A touch panel for performing various inputs may be integrally configured on the surface of the display device 13. In this case, the touch panel functions as the operation unit 12.

Further, on the front side (front side in FIG. 1) of the housing 11, substantially in the center of the nail printing device 1 in the X direction (X direction in FIG. 1), there is a shooting mechanism by the nail printing device 1 and a drawing mechanism. To insert the finger U1 corresponding to the nail T to be drawn during the drawing operation by the 40, and set the nail T at the shooting position where the shooting mechanism 50 can shoot and the drawing position where the drawing mechanism 40 can draw. The opening 14 is formed.
As will be described later, a finger fixing mechanism 3 for fixing the finger U1 having the claw T is arranged inside the opening 14.

FIG. 2 is a perspective view of a main part showing the internal configuration of the nail printing device 1 by removing the housing 11 from the nail printing device 1 shown in FIG.
As shown in FIG. 2, a base 2 in which various internal structures are incorporated is provided in the housing 11.
The surface of the base 2 (that is, the upper surface of the nail printing device 1 as shown in FIG. 2) is the base upper surface 20 constituting the XY plane in the present embodiment.
The upper surface 20 of the base is provided with a standby area (not shown) in which the drawing head 41 stands by when the drawing head 41 is not drawn.
Further, the upper surface 20 of the base is provided with a maintenance area 6 for maintaining the drawing head 41. Although not shown, a purge for forcibly injecting ink into the maintenance area 6 from an ink injection surface (not shown), which is a surface of the drawing head 41 facing the drawing target (claw T in the present embodiment), for example. A maintenance mechanism such as a wipe portion is provided to wipe off the portion and the ink injection surface and remove the remaining ink and the like.

A position on the upper surface of the base 20 that is the front side of the device (the front side in the Y direction in FIG. 2), is approximately the center of the width direction of the device (the X direction in FIG. 2), and corresponds to the opening 14 of the housing 11. A finger fixing mechanism 3 is arranged in the.
The finger fixing mechanism 3 has a mechanism for fixing the finger U1 having the claw T to be drawn.
The finger fixing mechanism 3 is a box-shaped member having an opening 31 on the front side of the device, and a finger fixing member 32 for fixing the finger U1 is arranged inside the finger fixing mechanism 3.
The finger fixing member 32 pushes up and supports the finger U1 from below, and is made of, for example, a flexible resin or the like. In the present embodiment, the finger fixing member 32 has a shape in which a substantially central portion in the width direction is recessed, and when the finger U1 is placed on the finger fixing member 32, the abdominal portion of the finger U1 is a finger fixing member. 32 can prevent the finger U1 from rattling in the device width direction (X direction in FIGS. 1 and 2).
The finger fixing member 32 may be any as long as it can support the finger U1 from below, and its configuration is not particularly limited. For example, it may be urged from below by an elastic member such as a spring. Further, for example, the finger fixing member 32 may be configured to be expandable and contractible by changing the internal pressure, and may be configured to push up the finger U1 in the expanded state and fix the position thereof.

The back side of the top surface of the finger fixing mechanism 3 is a window portion 33 that opens. The claw T of the finger U1 inserted into the finger fixing mechanism 3 is exposed from the window portion 33.
Further, the front side of the top surface of the finger fixing mechanism 3 is a finger pressing portion 34 that prevents the finger U1 from rising and regulates the upward position of the finger U1. The finger U1 and its claw T are supported from below by the finger fixing member 32, the upper side of the finger U1 comes into contact with the lower surface of the finger pressing portion 34, and the upper side of the finger U1 is pressed by the finger pressing portion 34. The position in the height direction is positioned at a predetermined position, and the extending direction of the claw T and the finger U1 is set in the direction along the lower surface of the finger pressing portion 34.
As described above, the finger fixing mechanism 3 of the present embodiment has the finger holding portion 34, and the side of the finger U1 having the fingernail T to be drawn, the side with the fingernail T (that is, the upper surface side of the finger U1, FIG. 3). The finger U1 is fixed in a state where the region which is (upper side) and does not have the claw T is in contact with the lower surface of the finger pressing portion 34.
Further, in the present embodiment, a nail mounting portion 35 is provided on the back side in the finger insertion direction to mount the tip portion of the nail T to be drawn and regulate the position of the nail T in the height direction. There is.
By placing the tip of the claw T on the upper surface of the claw mounting portion 35, the position of the claw T in the horizontal direction (that is, the X direction and the Y direction) is defined, and the position in the height direction thereof is also regulated. Will be done. The upper surface of the nail resting portion 35 is set to the same height as or lower than the lower surface of the finger pressing portion 34.

Further, in the nail mounting portion 35 of the present embodiment, the target for inserting the finger U1 on the surface on the front side thereof (that is, the side facing the tip end portion of the finger U1 inserted into the finger fixing mechanism 3). The target mark 351 is provided.
The target mark 351 is formed so that the finger U1 is placed at a predetermined position when the fingertip is in contact with the target mark 351. In the present embodiment, the distance D (both see FIG. 3) from the optical axis AL of the lens 511 of the photographing apparatus 51, which will be described later, to the fingertip is about 12 mm when the fingertip touches the fingertip.
For example, if the user has a slight deep nail, the fingernail may not be placed on the nail resting portion 35 well. In this case as well, the finger U1 can be inserted until the fingernail touches the target mark 351. The fingernail of the finger U1 can be arranged at a position suitable for the photographing process by the photographing apparatus 51 of the photographing mechanism 50 and the drawing process by the drawing mechanism 40.
When the user inserts the finger U1 into the finger fixing mechanism 3, a message such as "Please press the fingertip against the target mark" may be displayed on the display device or the like.

Further, a drawing mechanism 40 (see FIG. 7) for drawing on the drawing target surface is provided inside the housing 11. Here, the drawing target surface is the surface of the drawing target, and in the present embodiment, it is the surface of the fingernail T of the finger U1.
The drawing mechanism 40 moves the drawing head 41 which is the main body of the drawing mechanism, the head carriage 42 supporting the drawing head 41, and the drawing head 41 in the X direction (X direction in FIGS. 1 and 2, left and right directions of the nail printing device 1). To move the X-direction moving stage 45 for moving, the X-direction moving motor 46 (see FIG. 7), and the drawing head 41 in the Y direction (Y direction in FIGS. 1 and 2, the front-back direction of the nail printing device 1). The Y-direction moving stage 47, the Y-direction moving motor 48 (see FIG. 7), and the like are provided.

The Y-direction moving stages 47 are located on both sides of the upper surface of the base 20 in the device width direction (X-direction in FIGS. 1 and 2, left-right direction of the nail printing device 1), respectively, in the Y-direction (FIGS. 1 and 2 and the like). It has a support member 471 extending in the Y direction (the front-rear direction of the nail printing device 1).
Pulleys 477 are attached to both ends of the pair of support members 471 in the extending direction. A drive belt 474 extending in the front-rear direction (Y direction in FIG. 2 and the like) of the device is wound around the pulleys 477 on the left side of the device and the pulley 477 on the right side of the device.
Pulleys 477 provided on the back side of the device are attached to both ends of the drive shaft portion 476. A Y-direction moving motor 48 (see FIG. 3) is connected to the drive shaft portion 476, and the drive shaft portion 476 and the pulley 477 attached to the drive shaft portion 476 are appropriately corrected by driving the Y-direction moving motor 48. Rotate in the opposite direction.
The rotation of the pulley 477 also rotates the drive belt 474 wound around the pulley 477, whereby the X-direction moving stage 45 (and the drawing head 41 mounted on the X-direction moving stage 45) can move in the Y direction. It has become.
Further, a guide shaft 475 extending in the Y direction in parallel with the drive belt 474 is provided on the support member 471.

The X-direction moving stage 45 has a back plate 451 that is erected on the back side of the device with respect to the upper surface 20 of the base and extends in the X direction of the base 2, and an eave that projects from the upper end of the back plate 451 to the front of the device. It has a portion 452 and a pair of side surface portions 453 erected so as to close both side portions of a substantially L-shaped portion in a side view composed of a back plate 451 and an eaves portion 452.
The pair of left and right side surface portions 453 are each provided with a shaft insertion portion 453a through which the guide shaft 475 is inserted, and the guide shaft 475 is inserted into each of the pair of shaft insertion portions 453a to drive the Y-direction drive motor 48. As the drive belt 474 rotates, the X-direction moving stage 45 can move in the Y-direction along the guide shaft 475.

Further, a pulley (not shown) to which the X-direction moving motor 46 is connected is provided inside the pair of side surface portions 453, and the pulley extends in the left-right direction (X-direction in FIG. 2 and the like) of the device. The drive belt 454 is wound around. Further, inside the X-direction moving stage 45, a guide shaft 455 that is substantially parallel to the drive belt 454 and extends in the X-direction of the base 2 is provided.
A head carriage 42 that supports the drawing head 41 is mounted on the X-direction moving stage 45.
On the back side (back side of the device) of the head carriage 42, a shaft insertion portion (not shown) through which the guide shaft 455 is inserted is provided.
The guide shaft 455 is inserted through the shaft insertion portion of the head carriage 42, the X-direction drive motor 46 is driven, and the drive belt 454 rotates, so that the head carriage 42 moves in the X-direction moving stage 45 along the guide shaft 455. It can move in the X direction.

In the present embodiment, the X-direction moving motor 46, the Y-direction moving motor 48, and the like constitute a head moving portion 49 (see FIG. 7) capable of moving the drawing head 41 in the X and Y directions on the XY plane. The operation is controlled by the control device 80 (particularly the drawing control unit 814) described later.
It is not necessary that all the drawing control units 814 for controlling the operation of the drawing head 41 and the operation of the head moving unit 49 are provided on one control board. For example, a control unit 81 that controls ink injection of the drawing head 41, operation of the X-direction moving motor 46, and the like is mounted, and a control board (not shown) electrically connected to the main control board is provided on the X-direction moving stage 45. It may have been. In the present embodiment, a flexible printed wiring board 425 is provided on the back side of the head carriage 42. The printed wiring board 425 is electrically connected to the control board provided on the X-direction moving stage 45, and the control signal from the drawing control unit 814 provided on the main control board is in the X-direction. It is sent to the printed wiring board 425 via the control board provided on the moving stage 45, and the ink injection control of the drawing head 41 is performed according to the control of the drawing control unit 814.

The drawing head 41 of the present embodiment is an inkjet head that draws by an inkjet method.
The drawing head 41 draws on the nail T of the finger U1 based on the nail information or the like detected by the nail information detection unit 812 described later.
The drawing head 41 is, for example, an ink cartridge (not shown) corresponding to yellow (Y; YELLOW), magenta (M; MAGENTA), and cyan (C; CYAN) inks and a drawing target (surface of the claw T) in each ink cartridge. It is an ink cartridge integrated head in which an ink ejection surface (not shown) provided on the facing surface is integrally formed. On the ink injection surface, injection ports (ink injection ports, not shown) of a nozzle array including a plurality of nozzles for injecting ink of each color are formed in a row. The drawing head 41 atomizes the ink and sprays the ink directly from the ink ejection surface (ink ejection port of the ink ejection surface) to the drawing target surface (that is, the surface of the claw T) to draw. .. The drawing head 41 is not limited to the one that ejects the inks of the above three colors. It may be provided with an ink cartridge and an ink ejection port for storing other inks.

Further, in the present embodiment, the head carriage 42 that supports the drawing head 41 is provided with a photographing mechanism support portion 427 that projects laterally from the upper surface thereof. On the lower side surface (the side facing the upper surface 20 of the base) of the photographing mechanism support portion 427, the nail T exposed from the window portion 33 is photographed and a nail image (an image of the finger U1 including the nail T) is acquired. A mechanism 50 (see FIG. 3) is provided.
The photographing mechanism 50 of the present embodiment is configured to be movable in the X direction and the Y direction by a head moving unit 49 composed of an X direction moving motor 46, a Y direction moving motor 48, and the like.
The photographing mechanism 50 is arranged above the nail T exposed from the window portion 33 of the finger fixing mechanism 3 by the head moving portion 49 or the like when the claw T to be drawn is photographed by the photographing device 51.
The photographing mechanism 50 may be any as long as it can photograph the nail T arranged in the finger fixing mechanism 3, and the specific arrangement thereof is not particularly limited.
A moving mechanism for moving the photographing mechanism 50 in the X direction and the Y direction may be provided separately from the head moving portion 49, and the photographing mechanism 50 may be configured to move by this moving mechanism.

The photographing mechanism 50 is a photographing means for photographing a nail T and acquiring a nail image which is an image of a finger U1 including the nail T.
The photographing mechanism 50 includes a photographing device 51 and a lighting device 52.
The photographing device 51 is, for example, a small camera configured to include a solid-state photographing element having pixels of about 2 million pixels or more, a lens 511, and the like.
The lighting device 52 is, for example, a lighting lamp such as a white LED. In the present embodiment, a plurality of lighting devices 52 are arranged so as to surround the photographing device 51. The number and arrangement of the lighting devices 52 are not limited to the illustrated examples.
The photographing mechanism 50 is connected to an imaging control unit 811 (see FIG. 3) of a control device 80 described later, and is controlled by the imaging control unit 811.
The image data of the image taken by the photographing mechanism 50 is stored in the nail image storage area 825 or the like, which will be described later.

FIG. 3 is a cross-sectional view of a main part showing the positional relationship between the fingernail fixed to the finger fixing mechanism and the optical axis of the photographing device.
As shown in FIG. 3, in the present embodiment, the optical axis AL of the lens 511 of the photographing device 51 comes to or near the root portion of the claw T in a state where the finger U1 having the claw T is fixed to the finger fixing mechanism 3. The nail T is photographed at such a position to acquire a nail image. Here, the photographing device 51 is arranged so that the optical axis AL of the lens 511 is substantially orthogonal to the surface direction of the lower surface of the finger pressing portion 34 of the finger fixing mechanism 3. As a result, the optical axis AL becomes a direction substantially orthogonal to the extending direction (length direction) of the claw T.
In the state where the finger U1 is fixed to the finger fixing mechanism 3, the toe is placed on the nail mounting portion 35 and the fingertip is in contact with the target mark 351. As described above, the target mark is from the position of the optical axis AL. The distance D to the position of the fingernail touching 351 is about 12 mm.

FIG. 4 is an explanatory diagram showing the relationship between the drawing target surface (the surface of the claw T in the present embodiment) and the optical axis, and FIG. 5 shows the light of the drawing target surface in the case of the configuration shown in FIG. It is a table which shows the relationship between the distance from an axis and the amount of error when it deviates in the height direction. Here, it is assumed that the optical axis AL and the plane direction of the drawing target surface are orthogonal to each other.

As shown in FIGS. 4 and 5, the size of the object photographed by the photographing device 51 varies depending on the distance between the photographing device 51 and the object, and the farther the object is from the photographing device 51, the more the object is. Appears smaller, and the closer it is, the larger it appears. That is, how far the point in the captured image that is slightly off the center is from the optical axis AL depends on the distance between the photographing device 51 and the object.
For example, in the examples shown in FIGS. 4 and 5, when the distance CL from the drawing target surface to the photographing device 51 is 60 mm, the point is on the drawing target surface at a point deviated by 10 mm from the optical axis AL ( That is, when the distance to the photographing device 51 is 60 mm) and when the position is 1 mm higher than this (that is, when the distance to the photographing device 51 is 59 mm), the captured image is captured. The upper position is changed, and the error is about 167 um as shown in FIG.
When drawing is performed by the drawing head 41 of the inkjet method and the dot density is, for example, 600 dpi, the dot spacing is about 42 μm. Therefore, the error of 167 um corresponds to a deviation of about 4 dots in drawing, and is a level that greatly affects the drawing result.
When drawing on the nail T etc., if the drawing position shifts even by one dot, for example, if the white part of the base remains or sticks out to the finger part, it is a level that people will notice and it is unacceptable. The amount of deviation. Therefore, in order to realize high-definition drawing, it is preferable that the distance from the center does not exceed 3 mm, as shown in FIG.

Further, FIG. 6A is an explanatory diagram showing an example of a captured image when the drawing target surface is not tilted, and FIG. 6B is an explanatory diagram of a captured image when the drawing target surface is tilted toward the front. It is explanatory drawing which shows an example, and FIG. 6C is an explanatory diagram which shows the example of the photographed image when the drawing target surface is inclined to the back side.
For example, in a state where there is no inclination with respect to the photographing device 51, when an image is taken with the photographing device 51 and there is a drawing target surface that should be captured in a rectangular shape as shown in FIG. 6 (a), FIG. 6 (b) When the drawing target surface is tilted in a direction approaching the photographing device 51, a part of the drawing target surface is larger (wider) than the actual drawing target surface when the image is taken by the photographing device 51. Also, the shape is not the original rectangular shape, but a trapezoid. Therefore, when the drawing target area is set based on such an image, the ink may protrude from the drawing target surface (the surface of the nail T) and stain the finger U1 or the inside of the device.
On the contrary, as shown in FIG. 6C, when the drawing target surface is tilted in a direction away from the photographing device 51, a part of the drawing is actually drawn when the image is taken by the photographing device 51. The image is smaller (narrower) than the target surface. Also, the shape is not the original rectangular shape, but a trapezoid. Therefore, when the drawing target area is set based on such an image, there is a possibility that an unpainted portion may be generated on a part of the drawing target surface (the surface of the nail T).

Therefore, in order to perform high-definition drawing processing, it is necessary to keep the distance between the nail T, which is the drawing target, and the optical axis of the photographing device 51 (the photographing lens 511 of the photographing device), and the drawing target surface. It is important to suppress the inclination of the surface of the claw T as much as possible.
In the present embodiment, as shown in FIG. 3, the optical axis of the photographing lens 511 of the photographing apparatus 51 is in a state where the finger U1 having the nail T is inserted into the finger fixing mechanism 3 when the image is taken to acquire the nail image. The AL is arranged so as to come to the root side of the claw T, and the tip of the claw is placed on the claw mounting portion 35 so that the height direction of the claw T is also positioned.
As a result, it is possible to suppress an error due to the displacement of the object due to the displacement as much as possible, and it is possible to acquire a nail image suitable for recognizing the nail T shape or the like.

The control device 80 is installed on, for example, a substrate (not shown) arranged on the lower surface side of the top surface of the housing 11. In the present embodiment, as described above, the substrates are distributed and provided on the X-direction moving stage 45, the head carriage 42, etc., in addition to the main substrate arranged on the lower surface side of the top surface of the housing 11. By electrically connecting these, each part is controlled in an integrated manner and operates in cooperation with each other.
FIG. 3 is a main block diagram showing a control configuration in the present embodiment.
As shown in FIG. 3, the control device 80 includes a control unit 81 composed of a CPU (Central Processing Unit) (not shown), a ROM (Read Only Memory), a RAM (Random Access Memory), and the like (none of which are shown). It is a computer including a storage unit 82 composed of.

The storage unit 82 stores various programs, various data, and the like for operating the nail printing device 1.
Specifically, in the program storage area 820 composed of a ROM or the like in the storage unit 82, for example, various types such as the shape of the nail T, the contour of the nail T, the width of the nail T, and the curvature of the nail T can be obtained from the nail image. Various programs such as a nail information detection program for detecting nail information, a drawing data generation program for generating drawing data, and a drawing program for performing drawing processing are stored, and these programs are control devices. By being executed by 80, each part of the nail printing device 1 is controlled in an integrated manner.
Further, in the present embodiment, the storage unit 82 stores the nail design storage area 821 for storing the image data of the nail design drawn on the nail T, and the nail image of the nail T of the user's finger U1 acquired by the photographing mechanism 50. Claw information storage area 822 for storing claw image storage area, claw information detected by the claw information detection unit 812 (contour of claw T, width of claw T, inclination angle of claw T (curvature of claw T), etc.) is stored. Region 823 and the like are provided.

From a functional point of view, the control unit 81 includes a shooting control unit 811, a claw information detection unit 812, a drawing data generation unit 813, a drawing control unit 814, a display control unit 815, and the like. Functions such as the shooting control unit 811, the claw information detection unit 812, the drawing data generation unit 813, the drawing control unit 814, the display control unit 815, etc. are stored in the CPU of the control unit 81 and the program storage area 820 of the storage unit 82. It is realized by cooperating with the program.

The photographing control unit 811 controls the photographing device 51 and the lighting device 52 of the photographing mechanism 50, and the image of the finger including the image of the claw T of the finger U1 fixed to the finger fixing mechanism 3 by the photographing device 51 (nail image). Is to be photographed.
Further, in the present embodiment, as described above, the position of the photographing device 51 is adjusted so that the optical axis AL of the photographing lens 511 of the photographing device 51 is arranged at or near the base of the nail T, and the photographing is performed. The photographing control unit 811 adjusts the position of the photographing device 51 and the like.
The image data of the nail image acquired by the photographing mechanism 50 is stored in the nail image storage area 822 of the storage unit 82.

The nail information detection unit 812 detects the nail information about the finger T of the finger U1 based on the image (nail image) of the finger T of the finger U1 fixed to the finger fixing mechanism 3 photographed by the photographing device 51. Is.
Here, the claw information includes, for example, the contour of the claw T (the shape of the claw, the XY coordinates of the horizontal position of the claw T, etc.), the height of the claw T (the position in the vertical direction of the claw T, hereinafter "the vertical position of the claw T". "Or simply" the position of the claw T "), the curvature (degree of curvature) of the claw T, and the like.
The nail information may include the finger type of the nail T (for example, information such as the thumb of the right hand and the middle finger of the left hand). These information may be detected by the nail information detection unit 812 analyzing the nail image, or may be input by the user from the operation unit 12 or the like.
Claw information such as the claw shape (contour of the claw T) and the claw curvature, which are the results detected by the claw information detection unit 812, is stored in the claw information storage area 823 of the storage unit 82.

The drawing data generation unit 813 generates drawing data applied to the nail T of the finger U1 by the drawing head 41 based on the nail information detected by the nail information detection unit 812.
Specifically, the drawing data generation unit 813 adjusts to the shape of the nail T by enlarging, reducing, cutting out, etc. the image data of the nail design based on the shape of the nail T detected by the nail information detection unit 812. Performs a crowding process.
Further, the drawing data generation unit 813 makes appropriate corrections to generate drawing data to be drawn on the surface of the nail T, which is the drawing target surface.
Further, when the curvature of the nail T is acquired by the nail information detection unit 812, the drawing data generation unit 813 prevents the drawing density at both ends of the nail T from decreasing according to the curvature of the nail T, for example. Curved surface correction such as density adjustment may be performed as appropriate.

The drawing control unit 814 outputs a control signal to the drawing mechanism 40 based on the drawing data generated by the drawing data generation unit 813, and draws the claw T according to the drawing data. It is a control unit that controls the X-direction moving motor 46, the Y-direction moving motor 48, the drawing head 41, and the like of the 40.

The display control unit 815 controls the display device 13 to display various display screens.
In the present embodiment, the display control unit 815 is, for example, a design selection screen for selecting a nail image obtained by photographing the finger U1 or an image to be drawn on the nail T (that is, “nail design”). The display device 13 displays a thumbnail image for design confirmation, an instruction screen for displaying various instructions, and the like.

Next, the drawing method by the nail printing apparatus 1 in the present embodiment will be described with reference to FIG. 8 and the like.
When drawing with the nail printing device 1, the user first turns on the power switch to activate the control device 80.
The display control unit 815 causes the display device 13 to display the design selection screen, and the user operates the operation unit 12 or the like to select a desired nail design from a plurality of nail designs displayed on the design selection screen. A selection instruction signal is output from the operation unit 12, and one nail design is selected.

Next, the display control unit 815 causes the display device 13 to display an instruction screen instructing the finger U1 having a white background on the nail T to be inserted into the finger fixing mechanism 3 (step S1). When the user inserts the finger U1 into the finger fixing mechanism 3 and the setting of the finger U1 is completed, the photographing control unit 811 controls the photographing mechanism 50 and illuminates the finger U1 with the lighting device 52 while the finger nail T of the finger U1 is illuminated by the photographing device 51. And acquire a fingernail image (step S2). When the nail image is acquired, the nail information detection unit 812 temporarily detects nail information such as the nail shape (contour of nail T, nail region) from the nail image (step S3).
When the nail region or the like is provisionally detected from the nail image, the photographing control unit 811 arranges the photographing device so that the optical axis AL of the photographing lens 511 of the photographing device 51 comes to the base of the temporarily detected nail T or its periphery. The position of 51 is adjusted (step S4). Then, while illuminating with the lighting device 52 again, the nail T of the finger U1 fixed to the finger fixing mechanism 3 is photographed and a nail image is acquired (step S5).
When the nail image is acquired, the portion painted in white from the nail image is actually detected as a nail region by the nail information detection unit 812 (step S6). In addition, the claw information detection unit 812 acquires various other claw information.
When the nail area and the nail information are acquired, the drawing data generation unit 813 adjusts the image data of the nail design to the nail T and appropriately corrects the nail design to generate drawing data (step S7). The generated drawing data is sent to the drawing control unit 814.
When the drawing data is sent, the drawing control unit outputs the drawing layer data to the drawing mechanism 40, and the drawing mechanism 40 performs drawing processing based on the drawing data (step S7).
If there is another fingernail T to be drawn, the finger U1 is replaced and the above process is repeated.

As described above, according to the present embodiment, there is a claw mounting portion 35 on which the tip portion of the claw T to be drawn is placed to regulate the position of the claw T in the height direction, and the claw T is provided. When the finger U1 is fixed to the finger fixing mechanism 3 for fixing the finger U1, the nail T is photographed at a position where the optical axis AL of the photographing lens 511 comes to or near the base of the nail T to acquire a nail image. do. Then, the nail information including the region information of the nail T is acquired based on the nail image, and drawing is performed in the region of the nail T specified based on the nail information.
As a result, the nail image can be acquired while keeping the height of the nail T constant and keeping the position of the photographing lens on the nail T from the optical axis AL constant.
Therefore, it is possible to acquire a nail image with little error due to misalignment, etc., and by detecting nail information based on this, highly accurate nail recognition can be performed, so there is no misalignment or protrusion. High-definition nail printing can be performed.

Further, in the present embodiment, at least one of the photographing lens 511 and the finger fixing mechanism 3 of the photographing mechanism 50 is configured to be movable in the extending direction of the nail T, and the photographing lens 511 and the finger fixing of the photographing mechanism 50 are configured to be movable. By moving at least one of the mechanisms 3 relative to the other, the photographing mechanism 50 causes the photographing lens 511 to move in or near the base of the nail T in a state where the nail T is fixed to the finger fixing mechanism 3. It is arranged at a position where the optical axis AL of is coming.
In this way, at least one of the photographing lens 511 and the finger fixing mechanism 3 of the photographing mechanism 50 can be relatively moved relative to the other to perform photographing at a position suitable for photographing, so that the length of the claw T can be taken. Even users with different pod finger U1 lengths can take pictures at appropriate positions.

Further, in the present embodiment, the drawing mechanism 40 includes a drawing head 41 for drawing and a head moving unit 49 for moving the drawing head 41, and the photographing mechanism 50 is configured to be movable by the head moving unit 49. ing.
Therefore, it is not necessary to separately provide a mechanism for moving the photographing mechanism 50, the device configuration is simplified, and the device itself can be constructed at low cost.

Although the embodiments of the present invention have been described above, it goes without saying that the present invention is not limited to such embodiments and can be variously modified without departing from the gist thereof.

For example, in the present embodiment, the case where the photographing mechanism 50 is movable in the X direction and the Y direction by the head moving portion 49 is illustrated, but the positions of the optical axis AL of the photographing lens 511 and the base portion of the claw T are aligned. Since it is only necessary to be able to make adjustments, it is not essential that the photographing mechanism 50 is movable, and it is sufficient that either the photographing mechanism 50 or the finger fixing mechanism 3 is relatively movable. For example, the finger fixing mechanism 3 may be configured to be movable in the Y direction, which is the extending direction of the claw T, with respect to the device main body of the nail printing device 1.

9 (a) and 9 (b) are explanatory views schematically showing an example of a configuration in which the finger fixing mechanism 3 is movable in the Y direction.
9 (a) shows a state in which the position of the optical axis AL and the position of the base portion of the nail are deviated, and FIG. 9 (b) shows the black in FIG. 9 (a) from the state shown in FIG. 9 (a). The finger fixing mechanism 3 is slid and moved in the direction of the arrow to show a state in which the position of the optical axis AL and the position of the base portion of the nail are aligned.
As shown in FIGS. 9A and 9B, in this case, the finger fixing mechanism support member 22 as a guide portion for guiding the finger fixing mechanism 3 and the finger fixing mechanism 3 are engaged at an arbitrary position. A locking portion that can be stopped is further provided, and the finger fixing mechanism 3 is configured to be removable or retractable with respect to the finger fixing mechanism support member 22 provided on the main body of the apparatus.

In the examples shown in FIGS. 9 (a) and 9 (b), the finger fixing mechanism 3 is fitted into a groove portion provided in the finger fixing mechanism support member 22, and the finger fixing mechanism 3 is moved in the Y direction along the groove portion. It is supposed to be guided to.
Further, in FIGS. 9A and 9B, a sawtooth-shaped main body-side locking portion 23 is provided on the side of the finger fixing mechanism support member 22 as a locking portion, and the finger fixing mechanism 3 supports the finger fixing mechanism. An example is shown in which a sawtooth-shaped fixing mechanism-side locking portion 37 that fits with the main body-side locking portion 23 is provided at a position corresponding to the main body-side locking portion 23 when fitted into the groove portion of the member 22.
In the examples shown in FIGS. 9A and 9B, for example, the insertion status of the finger fixing mechanism 3 and the optical axis position of the photographing lens are displayed on the display device 13, and the user displays the display device 13. While referring to the finger fixing mechanism 3 while floating the finger fixing mechanism 3 to the extent that the locking portions 23 and 37 do not mesh with each other, the finger fixing mechanism support member 22 is moved along the groove portion. Then, when the position of the optical axis on the screen of the display device 13 comes to the base portion of the claw T, the finger fixing mechanism 3 is pushed downward so that the locking portions 23 and 37 mesh with each other at the position, and the position of the finger fixing mechanism 3 is reached. Is fixed.

The configuration in which the finger fixing mechanism 3 side is moved to align and fix the position of the optical axis and the base portion of the claw T is not limited to the one exemplified here.
For example, an electromagnet is provided on the lower side surface of the finger fixing mechanism 3 and the upper side surface of the finger fixing mechanism support member 22 facing the finger fixing mechanism 3, and when the optical axis position comes to the root portion of the claw T, the user can use the operation unit 12 or the like. The finger fixing mechanism 3 and the finger fixing mechanism support member 22 may be fixed by the electromagnet by inputting an instruction to turn on the electromagnet from.
In this way, the imaging mechanism 50 is fixed to the inside of the top surface of the housing 11 or the like by moving the finger fixing mechanism 3 side to align the optical axis position with the base portion of the claw T. The structure can be used, and it is possible to avoid the possibility that the photographing lens 511 of the photographing apparatus 51, which is a precision optical instrument, and its optical axis AL are displaced due to vibration or the like due to movement. Even in this case, the shooting position can be manually adjusted with a simple and inexpensive configuration.

Further, the relative movement with the photographing mechanism 50 is not limited to the entire finger fixing mechanism 3. For example, the claw resting portion 35 may be configured to be movable in the Y direction, which is the extending direction of the claw Y.
In this case, for example, the claw mounting portion 35 can be slidably moved in the Y direction, and the claw mounting portion 35 is urged by a spring or the like from the back side to the front side in the insertion direction of the finger U1.
As a result, when inserting the finger U1, the user pushes the nail mounting portion 35 with the finger U1 against the urging force of the spring until the position of the optical axis and the position of the base of the nail T match. go. Further, when the finger U1 is taken out from the finger fixing mechanism 3, the claw resting portion 35 returns to the original initial position by the spring. It should be noted that a locking portion or the like for locking the claw mounting portion 35 when the claw T is arranged at an appropriate position may be provided.
In this case as well, as in the case of moving the finger fixing mechanism 3 side, the photographing mechanism 50 can have a structure fixed to the inside of the top surface of the housing 11 or the like, and the photographing device 51 which is a precise optical device can be used. It is possible to avoid the possibility that the photographing lens 511 and its optical axis AL are displaced due to vibration or the like due to movement. Even in this case, the shooting position can be manually adjusted with a simple and inexpensive configuration.

Further, in the present embodiment, the case where the program storage area 820, the nail design storage area 821, the nail image storage area 822, the nail information storage area 823, and the like are provided in the storage unit 82 of the control device 80 is taken as an example. Each of these storage areas is not limited to the case where the storage unit 82 (ROM, RAM) of the control device 80 is provided, and a storage unit may be separately provided.
Further, the nail print device 1 may be linked with an external terminal device, and the information stored in the external terminal device may be used.

Further, in the present embodiment, the nail print device 1 in which fingers are inserted into the device one by one and drawing is performed sequentially is taken as an example, but the present invention is applied to a device capable of drawing on a plurality of fingers at the same time. It is also possible to do.

Although some embodiments of the present invention have been described above, the scope of the present invention is not limited to the above-described embodiments, but includes the scope of the invention described in the claims and the equivalent scope thereof. ..
The inventions described in the claims originally attached to the application of this application are described below. The claims described in the appendix are the scope of the claims originally attached to the application for this application.
[Additional Notes]
<Claim 1>
A finger fixing mechanism for fixing the finger in a state where the region of the finger having the fingernail to be drawn and having the fingernail on the side without the fingernail is in contact with the lower surface of the fingernail.
An imaging device that photographs the nail and acquires a nail image,
Equipped with
The imaging device is characterized in that, when photographing the nail of the finger fixed to the finger fixing mechanism, the optical axis of the photographing device is arranged at a photographing position located at the base portion of the nail. Drawing device.
<Claim 2>
The drawing according to claim 1, wherein the finger fixing mechanism has a nail mounting portion on which the tip portion of the nail is mounted and the position of the tip portion of the nail in the height direction is constant. Device.
<Claim 3>
The optical axis of the photographing apparatus is the optical axis of the photographing lens included in the imaging apparatus.
The feature is that the optical axis is arranged so as to be located at the base portion of the nail so that the optical axis is substantially orthogonal to the surface direction of the lower surface of the finger presser portion at the photographing position. The drawing apparatus according to claim 1 or 2.
<Claim 4>
At least one of the photographing apparatus and at least a part of the finger fixing mechanism is configured to be movable along the surface direction of the lower surface of the finger holding portion.
A claim characterized in that the imaging device is arranged at the imaging position when the imaging is performed by moving at least one of the imaging device or the finger fixing mechanism relative to the other. The drawing device according to any one of claims 1 to 3.
<Claim 5>
A nail information detection unit that acquires nail information including the nail area information based on the nail image, and a nail information detection unit.
A drawing mechanism that draws in the area of the nail specified based on the nail information,
The drawing apparatus according to any one of claims 1 to 4, wherein the drawing apparatus is provided with.
<Claim 6>
The drawing mechanism includes a drawing head for drawing and a head moving mechanism for moving the drawing head.
The imaging device is configured to be movable integrally with the drawing head by the head moving mechanism in a state where the optical axis is oriented in a direction substantially orthogonal to the surface direction of the lower surface of the finger pressing portion. The drawing apparatus according to claim 5.
<Claim 7>
The drawing device according to claim 6, wherein the head moving mechanism moves the drawing head so that the imaging device is arranged at the imaging position when the imaging is performed.
<Claim 8>
At least a part of the finger fixing mechanism is configured to be movable along the surface direction of the lower surface of the finger holding portion.
Any of claims 4 to 7, further comprising a guide portion for guiding the movement of the finger fixing mechanism and a locking portion capable of locking the finger fixing mechanism at an arbitrary position. The drawing device according to the first paragraph.
<Claim 9>
It is a control method of the drawing device.
The drawing device has a finger holding portion, and a finger that fixes the finger in a state where the region of the finger having the nail to be drawn has the nail and the region without the nail is in contact with the lower surface of the finger holding portion. It is equipped with a fixing mechanism and a photographing device for photographing the nail.
The control method is
When the imaging device photographs the nail of the finger fixed to the finger fixing mechanism and acquires a nail image, the imaging device is positioned so that the optical axis of the imaging device is located at the base of the nail. A method for controlling a drawing device, which comprises an arrangement step of arranging the image at a shooting position.
<Claim 10>
The optical axis of the photographing apparatus is the optical axis of the photographing lens included in the imaging apparatus.
In the photographing position in the arrangement step, in the photographing apparatus, the optical axis is in a direction substantially orthogonal to the surface direction of the lower surface of the finger presser portion, and the optical axis is located at the base portion of the nail. The control method for a drawing device according to claim 9, wherein the drawing device is arranged in such a manner.
<Claim 11>
At least one of the photographing apparatus and at least a part of the finger fixing mechanism is configured to be movable along the surface direction of the lower surface of the finger holding portion.
9. 10. The method for controlling a drawing device according to 10.
<Claim 12>
The drawing device includes a drawing mechanism for drawing on the nail.
A nail information detection step for acquiring nail information including the nail area information based on the nail image, and a nail information detection step.
A drawing step of drawing the drawing by the drawing mechanism in the area of the nail specified based on the nail information.
The control method for a drawing device according to any one of claims 9 to 11, wherein the drawing apparatus includes the above.

1 Nail print device 40 Drawing mechanism 50 Imaging mechanism 51 Imaging device 41 Drawing head 811 Imaging control unit 812 Claw information detection unit 814 Drawing control unit T Claw U1 Finger

Claims (7)

A finger fixing mechanism for fixing the finger in a state where the region of the finger having the fingernail to be drawn and having the fingernail on the side without the fingernail is in contact with the lower surface of the fingernail.
A shooting unit that has a shooting lens and shoots the nail to acquire a nail image.
An optical axis moving mechanism that moves the photographing unit so that the position of the optical axis of the photographing lens with respect to the nail changes.
With the finger fixed to the finger fixing mechanism, the position of the base of the nail with respect to the optical axis of the photographing lens is provisionally determined based on the first nail image obtained by photographing the nail by the photographing unit. The photographing portion is moved so that the optical axis of the photographing lens is located at the root portion of the nail based on the position of the root portion of the nail that has been detected and provisionally detected, and the nail is moved after the movement of the photographing portion. A control unit that mainly detects the position of the base of the nail with respect to the optical axis of the photographing lens based on the second nail image obtained by photographing the image.
A drawing device equipped with . The finger fixing mechanism has a nail mounting portion on which the tip portion of the nail is placed so that the distance in the height direction of the tip portion of the nail with respect to the photographing portion is the first distance .
The control unit said that the error of the distance from the center of the optical axis of the photographing lens with respect to the angle with the optical axis of the photographing lens at each position of the surface of the nail is smaller than the determined error. Take a picture of the second nail,
The drawing apparatus according to claim 1. A nail information detection unit that acquires nail information including the region information of the nail based on the second nail image, and a nail information detection unit.
A drawing mechanism that draws in the area of the nail specified based on the nail information,
The drawing apparatus according to claim 1 or 2 . The drawing mechanism includes a drawing head for drawing and a head moving mechanism for moving the drawing head.
The photographing unit is configured to be movable integrally with the drawing head by the head moving mechanism in a state where the optical axis is oriented in a direction substantially orthogonal to the surface direction of the lower surface of the finger pressing portion. The drawing device according to claim 3 . At least a part of the finger fixing mechanism is configured to be movable along the surface direction of the lower surface of the finger holding portion.
The drawing device according to claim 4 , further comprising a guide portion for guiding the movement of the finger fixing mechanism and a locking portion capable of locking the finger fixing mechanism at an arbitrary position. It is a control method of the drawing device.
The drawing device has a finger holding portion, and a finger that fixes the finger in a state where the region without the nail on the side of the finger having the nail to be drawn is in contact with the lower surface of the finger holding portion. An optical axis movement that has a fixing mechanism and a photographing lens and moves the photographing unit so as to change the position of the optical axis of the photographing lens with respect to the nail and the photographing unit that photographs the nail and acquires a nail image. With a mechanism ,
The control unit
With the finger fixed to the finger fixing mechanism, the position of the base of the nail with respect to the optical axis of the photographing lens is provisionally determined based on the first nail image obtained by photographing the nail by the photographing unit. The photographing portion is moved so that the optical axis of the photographing lens is located at the root portion of the nail based on the position of the root portion of the nail that has been detected and provisionally detected, and the nail is moved after the movement of the photographing portion. The position of the base portion of the nail with respect to the optical axis of the photographing lens is finally detected based on the second nail image obtained by photographing.
How to control the drawing device. The finger fixing mechanism has a nail mounting portion on which the tip portion of the nail is placed so that the distance in the height direction of the tip portion of the nail with respect to the photographing portion is the first distance.
The drawing device is in a state where the error of the distance from the center of the optical axis of the photographing lens with respect to the angle with the optical axis of the photographing lens at each position of the surface of the nail is smaller than the determined error. The method for controlling a drawing device according to claim 6, wherein a second claw image is taken.

Images