JP2021180831A - Printer, printing method and program - Google Patents

Abstract

To provide a printer, a printing control method and program which can apply the good appearance to a nail regardless of design printing to be printed on the nail.SOLUTION: A nail print device 1 includes a control unit 81. The control unit 81 detects a nail region on the basis of an image obtained by imaging a finger being a printing object by an imaging unit 50, sets at least a portion of the detected nail region as a pre-printing setting region where the pre-printing should be performed, performs the pre-printing with a printing unit 40, detects the region where the pre-printing is performed as a post-printing region on the basis of the image obtained by imaging the pre-printed finger being the printing object by the imaging unit 50, sets a post-printing region reference point corresponding to a post-printing region or sets a pre-printing setting region reference point corresponding to the pre-printing setting region and a post-printing region reference point, and performs post-printing on the nail region by the printing unit 40 on the basis of information about any set reference point and the pre-printing setting region.SELECTED DRAWING: Figure 5

Description

The present invention relates to a printing apparatus, a control method and a control program of the printing apparatus.

Conventionally, a printing device (nail printing device) for printing a nail design on a human fingernail or the like is known (see, for example, Patent Document 1).
In this type of printing device, the nail may be pre-printed with white ink or the like, and color printing (design printing) may be performed with color ink. In such a case, the finger is temporarily removed from the device in order to dry the white ink, apply the receiving layer for the color ink, and the like after printing the base. Then, after that, the finger is set on the device again, the background area is recognized by the camera, and color printing is performed in this background area.

Special Table 2003-534083 Gazette

However, in the above-mentioned printing device (nail printing device), the camera is adjusted in dimensional alignment so that accurate dimensions can be obtained on a predetermined reference plane, so that the finger to be printed is surely placed on this reference plane. Difficult to place. Therefore, the background area recognized by the camera may be larger or smaller than the actual area depending on the deviation of the distance from the reference plane. As a result, the base area and the color print area are misaligned, and if the base is sticking out, the base part remains even after color printing, or the color print sticks out from the nails, and the nail looks bad. Become.

The present invention has been made in view of the above circumstances, and an object of the present invention is to finish a nail with a good appearance regardless of the design printing to be printed on the nail.

In order to achieve the above object, the printing apparatus of the present invention is used.
A nail area detecting means for detecting a nail area based on an image of a finger to be printed, and a nail area detecting means.
A setting means for setting at least a part of the claw area detected by the claw area detecting means as a preprint setting area for preprinting, and a setting means.
A printing means for printing preprints and
A post-printing area detecting means that detects a pre-printed area as a post-printing area by the printing means based on an image of a finger to be printed, which is pre-printed by the printing means.
A reference point setting means for setting a post-print area reference point corresponding to the post-print area and a pre-print setting area reference point corresponding to the pre-print setting area.
Equipped with
The printing means is characterized in that post-printing is printed on the claw area based on the information of any reference point set by the reference point setting means and the front printing setting area.

According to the present invention, it is possible to finish a nail with a good appearance.

It is a main part perspective view which shows the internal structure of the nail printing apparatus in embodiment. It is a control block diagram which shows the schematic control composition of the nail printing apparatus and the terminal apparatus in embodiment. It is a flowchart which shows the flow of the printing process in an embodiment. It is a figure for demonstrating the influence of the position deviation of a nail from a reference plane of a photographing apparatus. It is a flowchart which shows the flow of the correction process in an embodiment. It is a figure for demonstrating an example of the correction process in an embodiment. It is a flowchart which shows the flow of the correction process in the 1st modification of embodiment. It is a figure for demonstrating the correction process in the 1st modification of embodiment. It is a flowchart which shows the flow of the correction process in the 2nd modification of embodiment. It is a figure for demonstrating the correction process in the 2nd modification of embodiment. It is a figure for demonstrating another example of the correction process in an embodiment.

An embodiment of the printing apparatus according to the present invention will be described with reference to FIGS. 1 to 11.
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, a case where the printing device is a nail printing device that prints on the fingernail of the hand as a printing target will be described as an example, but the printing target of the printing device in the present invention is the finger of the hand. The printing is not limited to nails, and for example, toenails may be printed. In addition, objects other than nails, such as the surface of nail tips and various accessories, may be printed.

FIG. 1 is a perspective view showing an external configuration of a main part of the nail printing device 1.
In the following embodiments, up / down, left / right, and front / back refer to the directions shown in FIG. Further, the X direction is the left-right direction, and the Y direction is the front-back direction.

As shown in FIG. 1, the nail printing device 1 has a housing 2 formed in a substantially box shape.
The housing 2 is located on the lower portion of the front side (front side of the nail printing device 1, front side in FIG. 1) on almost the entire surface in the left-right direction (horizontal direction of the nail printing device 1, left-right direction in FIG. 1, X direction). It has an opening 21 formed over the same. Further, a notch 22 is continuously formed on the upper side of the opening 21 at substantially the center of the housing 2 in the left-right direction. The cutout portion 22 functions as an entrance / exit when attaching / detaching the print head 41, which will be described later, to / from the apparatus.
Although not shown, the housing 2 may be provided with a cover member or the like that covers the opening 21 or the notch 22. The cover member may be separated from the housing 2, or may be attached to the housing 2 so as to be openable and closable via a hinge or the like.

Further, an operation unit 12 of the nail printing device 1 is provided on the upper surface (top plate) of the housing 2. The operation unit 12 is, for example, an operation button (power switch button) for turning on / off the power of the nail printing device 1. When the operation unit 12 is operated, an operation signal is output to the control device 80 described later, and the control device 80 controls according to the operation signal to operate each part of the nail print device 1. For example, when the operation unit 12 is a power switch button, the power of the nail printing device 1 is turned on / off according to the button operation.
Instead of the operation unit 12, each unit of the nail print device 1 may operate according to an operation signal input from the operation unit 91 of the terminal device 9 described later.
The shape of each part of the housing 2 and the arrangement of each part are not limited to the illustrated examples and can be set as appropriate. For example, the operation unit 12 may be provided on the side surface, the back surface, or the like instead of the upper surface of the housing 2. Further, the housing 2 may be provided with various other operation buttons as the operation unit 12, or may be provided with various display units, indicators, and the like.

The apparatus main body 10 is housed inside the housing 2.
The apparatus main body 10 includes a base 11, a finger fixing portion 6 attached to the base 11, a printing portion 40, and the like.

The finger fixing portion 6 is arranged substantially in the center of the base 11 in the left-right direction (X direction) on the front surface side of the device, and is suitable for printing a finger (printing finger) having a claw, which is a printing target in the present embodiment. It is fixed in the area.
The finger fixing portion 6 has an opening 61 on the front surface side of the device. Further, a finger fixing member 62 is provided inside the finger fixing portion 6. The finger fixing member 62 pushes up and supports the finger inserted from the opening 61 from below, and is made of, for example, a flexible resin or the like.
A window portion 63 is formed on the upper surface of the finger fixing portion 6 to expose the fingernail portion inserted from the opening 61 and held by the finger fixing member 62.

The printing unit 40 is a printing means for printing on the nail to be printed.
The printing unit 40 includes a print head 41 that performs a printing operation and a head moving mechanism 49 (see FIG. 2) for moving the print head unit 42 provided with the print head 41.

The print head 41 of the present embodiment has an ink ejection surface (none of which is shown) having a plurality of nozzle openings for ejecting ink on the surface facing the claw surface, and atomizes the ink to eject the ink. This is an inkjet head of an inkjet type that prints by directly spraying ink from the surface onto the surface of the nail, which is the surface to be printed of the object to be printed (claw). The configuration of the print head 41 is not particularly limited, but is a cartridge-integrated head in which, for example, an ink ejection mechanism such as an ink ejection surface and an ink cartridge (none of which are shown) are integrated.
The print head 41 can eject, for example, cyan (C; CYAN), magenta (M; MAGENTA), and yellow (Y; YELLOW) inks. Further, the print head 41 of the present embodiment can also eject white ink as a base paint. In inkjet printing, the color of the background has a great influence on the hue, so it is possible to obtain a beautiful color by printing a white background. The type of ink provided in the print head 41 is not limited to this.

The head moving mechanism 49 includes an X-direction moving mechanism (not shown) for moving the print head 41 in the left-right direction (X direction) of the device, and a Y (not shown) for moving the print head 41 in the front-back direction (Y direction) of the device. It consists of a directional movement mechanism.
The X-direction moving mechanism includes an X-direction moving motor 46 (see FIG. 2), and the printing head 41 is moved in the left-right direction (X-direction) of the apparatus by being driven by the X-direction moving motor 46. Further, the Y-direction moving mechanism includes a Y-direction moving motor 48 (see FIG. 2), and the printing head 41 is moved in the front-rear direction (Y direction) of the device by being driven by the Y-direction moving motor 48.

Further, on the inside of the upper surface (top plate) of the housing 2, at a position above the window portion 63 of the finger fixing portion 6, a nail (fingers including the nail) exposed from the window portion 63 is photographed to form the nail. An imaging unit 50 for acquiring an image (an image of a finger including a nail, hereinafter referred to as a “nail image”) is provided.
The photographing unit 50 includes, for example, a photographing device 51 such as a camera and a lighting device 52 composed of a white LED or the like for illuminating a nail to be photographed (see FIG. 2).
The photographing device 51 is, for example, a small camera configured to include a solid-state photographing element such as a CCD (Charge Coupled Device) type or a CMOS (Complementary Metal Oxide Semiconductor) type having 2 million pixels or more, a lens, and the like. The photographing device 51 has an optical axis Ax along the vertical direction orthogonal to the XY plane, and accurately measures the dimensions of the object from an image obtained by photographing an object located on the reference plane L at a predetermined distance. The dimensional alignment has been adjusted so that it can be obtained (see FIG. 4). The position of the optical axis Ax on the XY plane is constant, and in this embodiment, it is a coordinate (CX, CY).

Further, in the present embodiment, the photographing device 51 and the lighting device 52 are fixed at a position inside the top surface of the housing 2 and facing the fingernail (the surface of the fingernail) placed on the finger fixing portion 6. Although the case where the image is arranged is illustrated, the photographing unit 50 may be provided at a position where the fingernail placed on the finger fixing portion 6 can be photographed, and the specific arrangement is not particularly limited.
For example, the photographing unit 50 may be configured to be movable in the XY directions by the head moving mechanism 49 that moves the print head 41.

FIG. 2 is a control block diagram showing a schematic control configuration of the nail print device 1 and the terminal device 9 described later.
As shown in this figure, the nail printing device 1 includes a communication unit 55 and a control device 80 in addition to the printing unit 40 and the photographing unit 50 described above.

The communication unit 55 is configured to be capable of transmitting and receiving information to and from the terminal device 9 described later, which operates in cooperation with the nail print device 1.
Communication between the nail print device 1 and the terminal device 9 is performed, for example, by a wireless LAN or the like. The communication between the nail print device 1 and the terminal device 9 is not limited to this, and any method may be used. For example, it may use a network line such as the Internet, or may perform wireless communication based on a short-range wireless communication standard such as Bluetooth (registered trademark) or Wi-Fi. Further, this communication is not limited to wireless, and various data may be transmitted / received between the two by a wired connection. The communication unit 55 includes an antenna chip or the like corresponding to the communication method of the terminal device 9.

The control device 80 includes a control unit 81 composed of a CPU (Central Processing Unit) (not shown), and a storage unit 82 having a ROM (Read Only Memory) 821, a RAM (Random Access Memory) 822, and the like. It is a computer equipped.

The storage unit 82 stores various programs, various data, and the like for operating the nail printing device 1.
Specifically, the ROM 821 of the storage unit 82 stores various programs such as a print program for performing printing processing, and when these programs are executed by the control device 80, the nail printing device 1 Each part of is controlled in a centralized manner.

The control unit 81 includes functional units such as a shooting control unit 811, a print control unit 813, and a communication control unit 814. The functions of each of these functional units are realized by the cooperation between the CPU of the control unit 81 and the program stored in the ROM 821 of the storage unit 82.

The photographing control unit 811 controls the photographing device 51 and the lighting device 52 of the photographing unit 50, and obtains a finger image (nail image) including an image of a printing fingernail fixed to the finger fixing unit 6 by the photographing device 51. Let me shoot.
The image data of the nail image acquired by the photographing unit 50 is transmitted to the terminal device 9 described later via the communication unit 55. The image data may be stored in the storage unit 82.

The print control unit 813 outputs a control signal to the print unit 40 based on the print data transmitted from the terminal device 9 described later, and prints the claws according to the print data. Controls the X-direction moving motor 46, the Y-direction moving motor 48, the print head 41, and the like.

The communication control unit 814 controls the operation of the communication unit 55. In the present embodiment, the communication control unit 814 controls communication with the terminal device 9 described later, and receives print data or the like when it is transmitted from the terminal device 9.

Further, the nail printing device 1 of the present embodiment is configured to be communicable with the terminal device 9, and executes a printing operation or the like based on an operation command from the terminal device 9.

The terminal device 9 is a mobile terminal such as a smartphone or a tablet. However, the terminal device 9 is not particularly limited as long as it can communicate with the nail print device 1, and may be, for example, a notebook type or stationary type personal computer, a terminal device for a game, or the like.
Specifically, the terminal device 9 includes an operation unit 91, a display unit 92, a communication unit 94, a control device 95, and the like.

The operation unit 91 can perform various inputs and settings according to the user's operation, and when the operation unit 91 is operated, an input signal corresponding to the operation is transmitted to the control device 95. Will be done. In the present embodiment, the touch panel is integrally provided on the surface of the display unit 92, and the user can perform various input / setting operations by touching the touch panel.
The operation unit 91 for performing various input / setting operations is not limited to the touch panel. For example, various operation buttons, a keyboard, a pointing device, and the like may be provided as the operation unit 91.
In the present embodiment, the user can select the nail design to be printed on the nail by operating the operation unit 91.

The touch panel configured in the display unit 92 displays various display screens according to the control of the control unit 96 described later.
In the present embodiment, the display unit 92 can display a nail design input / selected by the user from the operation unit 91, an image transmitted from the nail print device 1, and the like.

The communication unit 94 can transmit print data to the nail print device 1. Further, the communication unit 94 receives data such as a nail image when it is transmitted from the nail printing device 1. The communication unit 94 includes a wireless communication module or the like capable of communicating with the communication unit 55 of the nail print device 1.
The communication unit 94 may be any as long as it can communicate with the nail print device 1, and the communication unit 94 that matches the communication standard of the communication unit 55 of the nail print device 1 is applied.

The control device 95 is a computer including a control unit 96 composed of a CPU (Central Processing Unit) (not shown) and a storage unit 97 composed of a ROM (Read Only Memory) and a RAM (Random Access Memory) (not shown). Is.

The storage unit 97 stores various programs, various data, and the like for operating each unit of the terminal device 9.
Specifically, the ROM or the like of the present embodiment includes various operation programs for controlling each part of the terminal device 9 as well as various nail print application programs for performing nail printing using the nail print device 1. Programs are stored, and the terminal device 9 is controlled by the control device 95 expanding and executing these programs in, for example, a work area of a RAM.
Further, the storage unit 97 of the present embodiment stores nail design data, nail images, nail shape information, and the like.

The control unit 96 controls the operation of each unit of the terminal device 9 in an integrated manner. The control unit 96 realizes various functions for printing on the nail in cooperation with the program stored in the storage unit 97.

Subsequently, the operation of the nail printing device 1 when printing on the nail will be described.
FIG. 3 is a flowchart showing the flow of the printing process of the nail printing device 1, and FIG. 4 is a diagram for explaining the influence of the position deviation of the nail from the reference surface L of the photographing device 51.
Here, it is assumed that the nail design to be printed is set in advance.

As shown in FIG. 3, when the printing process is executed and the finger (printing finger) is placed on the finger fixing unit 6 by the user (step S1), the control unit 81 photographs the nail of the printing finger by the photographing unit 50. The nail image is acquired, and the shape (claw region) of the nail is recognized (detected) from the nail image and stored in the storage unit 82 (step S2).

Next, the control unit 81 executes white printing for printing a white base paint (white ink) on the printing finger arranged in the finger fixing unit 6 (step S3). Here, among the nail areas recognized (detected) in step S2, the printing unit 40 executes white printing on the preset printing area (area to which the nail design is applied). This white printing (base) is an example of pre-printing according to the present invention. The range of the base area to be printed in white is not particularly limited, and may be a part or the whole of the nail, or may not have a one-to-one correspondence with the detected nail area.
At this time, the control unit 81 stores the information of the background area actually printed in the storage unit 82 (step S4). In the present embodiment, the width W0 in the X direction and the length H0 in the Y direction (see FIG. 6) of the circumscribed quadrangle of the base region are stored. The circumscribed quadrangle is composed of each side along the X and Y directions.

After that, the printing finger is pulled out from the finger fixing portion 6 by the user, and the white ink is dried and the receiving layer for the color ink is applied onto the white ink as needed (step S5).

Next, when the user repositions the printing finger on the finger fixing unit 6 (step S6), the control unit 81 photographs the nail of the printing finger by the photographing unit 50 (imaging device 51) and acquires a nail image. A white background region is recognized (detected) from this nail image and stored in the storage unit 82 (step S7).

At this time, if the position of the claw rearranged in step S6 after white printing is vertically displaced from the reference surface L from which accurate dimensions can be acquired by the photographing device 51, the background area recognized (detected) in step S7. (Hereinafter, "recognition area R1") is recognized (detected) by changing from the actual base area (hereinafter, referred to as "real area R0") by the distance deviated from the reference plane L. The real area R0 is an example of the pre-print setting area according to the present invention, and the recognition area R1 is an example of the post-print area according to the present invention.
Specifically, as shown in FIG. 4A, when the claw position (position on the optical axis Ax) M is below the reference plane L (far from the photographing device 51), the recognition area R1 is set. It is smaller than the real region R0. Therefore, if the range of the recognition area R1 is printed as it is, a white portion remains at the end of the real area R0.
On the other hand, as shown in FIG. 4B, when the position M of the nail is above the reference plane L (close to the photographing device 51), the recognition region R1 is larger than the real region R0. Therefore, if the range of the recognition area R1 is printed as it is, this print area extends beyond the actual area R0.

Therefore, the control unit 81 performs a correction process for correcting the position and size of the base region recognized in step S7 (step S8).
FIG. 5 is a flowchart showing the flow of this correction process, and FIG. 6 is a diagram for explaining this correction process.
Note that FIG. 6 illustrates a case where the position M of the claw rearranged in step S6 after white printing is below (far) from the reference surface L of the photographing apparatus 51.
Further, in the following description, unless otherwise specified, the "distance" is the distance along the optical axis Ax, the "width" is the distance along the X direction, and the "length" is the Y direction. The distance along the line, "coordinates" means XY coordinates.

As shown in FIGS. 5 and 6, when the correction process is executed, the control unit 81 first acquires the coordinates of the contour of the recognition area R1 and the width WW in the X direction and the length HW in the Y direction of the circumscribed quadrangle. (Step S81). The circumscribed quadrangle is composed of each side along the X and Y directions.
Next, the control unit 81 sets the coordinates of the reference point P1 of the recognition area R1 (step S82). The reference point P1 is an example of the post-printing area reference point according to the present invention. In this embodiment, the reference point P1 is the vertex (XW, YW) of any one of the circumscribed quadrangles (each side is along X and Y) of the recognition region R1 on the XY plane. However, the reference point P1 is not limited to that of the present embodiment as long as it is any point (for example, a representative point) corresponding to the circumscribed polygon of the recognition area R1, for example, the center of gravity of the circumscribed polygon of the recognition area R1. It may be a (center of gravity) point or the like.

Next, the control unit 81 reads out the width W0 in the X direction and the length H0 in the Y direction of the base region stored in step S4 (step S83). Since the X-direction width W0 and the Y-direction length H0 are the dimensions at the time of actual white printing, they are equal to the X-direction width and the Y-direction length of the real region R0.

Next, the control unit 81 expands the contour of the recognition area R1 so as to match the X-direction width WW and the Y-direction length HW of the recognition area R1 with the X-direction width W0 and the Y-direction length H0 of the real area R0. Reduce (step S84).
That is, for example, in order to obtain the point B on the contour of the real region R0, the length BC in the X direction may be obtained from the following equation.
BC = EF x W0 / WW
Here, the EF is known from the point E on the circumscribed quadrangle of the recognition region R1 and the point F on the optical axis Ax.
Further, in order to obtain the point J on the contour of the real region R0, the length JC in the Y direction may be similarly obtained from the following equation.
JC = HF x H0 / HW
Here, the HF is known from the point H on the circumscribed quadrangle of the recognition region R1 and the point F on the optical axis Ax.

Next, the control unit 81 obtains the reference point P0 of the real region R0 corresponding to the reference point P1 of the recognition region R1 (step S85). The reference point P0 is an example of the pre-print setting area reference point according to the present invention.
Here, the coordinates (XW0, YW0) of the reference point P0 of the real region R0 are calculated by the following formula.
XW0 = CX-length BC
= CX-Length EF x W0 / WW
= CX- (CX-XW) x W0 / WW
YW0 = CY-length JC
= CY-Length HF x W0 / WW
= CY- (CY-YW) x W0 / WW

In this way, the recognition area R1 is corrected to the area having the contour enlarged or reduced in step S84 and the reference point P0 (XW0, YW0) calculated in step S85, that is, the real area R0. As a result, design printing can be appropriately performed on the actual base area.

Next, as shown in FIG. 3, the control unit 81 generates print data so that a predetermined design print is executed on the base region (recognition region R1) corrected in step S8 (step S9). ).
After that, the control unit 81 executes design printing (decorative printing) by the printing unit 40 based on the print data generated in step S9 (step S10), and then ends the printing process. This design printing (decoration) is an example of post-printing according to the present invention.

As described above, according to the present embodiment, the background region is recognized from the image taken by the printing finger, and the reference point P1 of the recognition region R1 and the reference point P0 of the real region R0 are set, and the reference point and the reference point P0 are set. The decoration is printed on the nail area based on the information with the real area R0.
Therefore, even if the position M of the nail is deviated from the reference surface L from which accurate dimensions can be acquired by the photographing device 51, the recognition region R1 has a size of the reference point P0 corresponding to the real region R0. Can be corrected to. As a result, the print area to which the design print is applied and the base area can be aligned, and the nail can be finished with a good appearance.

Subsequently, a first modification of the above embodiment will be described.
In the first modification, the content of the correction process of step S8 for correcting the recognized base area is different from that of the above embodiment. Hereinafter, this difference will be mainly described, and the same components as those in the above embodiment are designated by the same reference numerals and the description thereof will be omitted.
FIG. 7 is a flowchart showing the flow of the correction process in the first modification, and FIG. 8 is a diagram for explaining the correction process.

In this first modification, as shown in FIG. 8A, the control unit 81 uses the X of the circumscribed quadrangle of the background area as the information of the background area (that is, the actual area R0) actually printed in step S4. In addition to the direction width W0 and the Y direction length H0, the coordinates of the contour of the base area are acquired and stored in the storage unit 82.

After that, when the correction process is executed, as shown in FIGS. 7 and 8 (b), first, the control unit 81 first determines the coordinates of the contour of the recognition region R1 and its circumscribed circle, as in step S81 of the above embodiment. The width WW in the X direction and the length HW in the Y direction of the quadrangle are acquired (step T81).
Next, the control unit 81 sets the coordinates of the reference point P1 of the recognition area R1 in the same manner as in step S82 of the above embodiment (step T82).

Next, the control unit 81 obtains the reference point P0 of the real region R0 corresponding to the reference point P1 of the recognition region R1 in the same manner as in step S85 of the above embodiment (step T83).
Then, the control unit 81 arranges the contour of the base region (that is, the actual region R0) acquired in step S4 as it is so that the reference position P2 (see FIG. 8A) coincides with the reference point P0 (step). T84). Here, the reference position P2 is a point in the real region R0 that has a positional relationship corresponding to the reference point P1 in the recognition region R1, and in the example of FIG. 8, it is the upper left vertex of the circumscribed quadrangle. The reference position P2 may be obtained in step T84 or may be obtained in advance in step S4.

In this way, the recognition area R1 is corrected to the real area R0 having the contour acquired in step S4 and the reference point P0 calculated in step T83. As a result, design printing can be appropriately performed on the actual base area.

As described above, the same effect as that of the above-described embodiment can be obtained by the first modification.
That is, even when the position M of the nail is deviated from the reference surface L from which accurate dimensions can be acquired by the photographing device 51, the recognition region R1 has a size (contour) with the reference point P0 corresponding to the real region R0. Can be corrected to have. As a result, the print area to which the design print is applied and the base area can be aligned, and the nail can be finished with a good appearance.

Further, according to the first modification, the contour of the base region is arranged as it is while matching the reference position P2 with the reference point P0, and the actual region R0 is set. Therefore, the amount of arithmetic processing can be reduced as compared with the case where the recognition area R1 is enlarged or reduced to set the real area R0.

Subsequently, a second modification of the above embodiment will be described.
In the second modification, the content of the correction process of step S8 for correcting the recognized base area is different from that of the above embodiment. Specifically, in the above embodiment, the reference point P1 of the recognition area R1 and the reference point P0 of the real area R0 are set to print the decoration, but instead of this, the second modification In this method, it is not necessary to set the reference point P0 of the real area R0, and only the reference point P1 of the recognition area R1 is set to print the decoration. Hereinafter, this difference will be mainly described, and the same components as those in the above embodiment are designated by the same reference numerals and the description thereof will be omitted.
FIG. 9 is a flowchart showing the flow of the correction process in the second modification, and FIG. 10 is a diagram for explaining the correction process.

As shown in FIGS. 9 and 10, when the correction process is executed, the control unit 81 first determines the coordinates of the contour of the recognition area R1 and the width of the circumscribed quadrangle in the X direction, as in step S81 of the above embodiment. Acquire the WW and the length HW in the Y direction (step U81).
Next, the control unit 81 reads out the X-direction width W0 and the Y-direction length H0 of the base region (that is, the actual region R0) stored in step S4, as in step S83 of the above embodiment (step U82).

Next, the control unit 81 expands the contour of the recognition area R1 so as to match the X-direction width WW and the Y-direction length HW of the recognition area R1 with the X-direction width W0 and the Y-direction length H0 of the real area R0. Reduce (step U83).
At this time, the control unit 81 sets the point C (CX, CY) on the optical axis Ax, that is, the intersection of the recognition region R1 and the optical axis Ax as the reference point P1, and the relative of the contour of the recognition region R1 to the reference point P1. Scale the position. The enlargement / reduction ratio may be W0 / WW or H0 / HW, an average value thereof, W0 / WW in the width direction, and H0 / HW in the length direction.

In this way, the recognition region R1 is corrected to the real region R0 having the contour enlarged or reduced in step U83 and the reference point on the optical axis Ax (which is equal to the reference point P1 because it is a point on the optical axis Ax). As a result, design printing can be appropriately performed on the actual base area.

As described above, the same effect as that of the above-described embodiment can be obtained by the second modification.
That is, the background region is recognized from the image of the printing finger, the reference point P1 of the recognition region R1 is set, and the decoration is printed on the nail region based on the information of the reference point P1 and the real region R0.
Therefore, even if the position M of the nail is deviated from the reference surface L from which accurate dimensions can be acquired by the photographing device 51, the recognition region R1 has a reference point and a size (contour) corresponding to the real region R0. It can be corrected to what it has. As a result, the print area to which the design print is applied and the base area can be aligned, and the nail can be finished with a good appearance.

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 and its modification, the case where the claw position M is below the reference surface L in the correction process of step S8 is exemplified. However, as shown in FIG. 11, even when the position M of the claw is above the reference surface L (close to the photographing device 51), the correction process can be similarly executed.
Further, the background may be a color other than white.

Further, in the present embodiment, the nail printing device 1 is configured to print by the inkjet method, but the method of printing by the nail printing device 1 is not limited to the inkjet method.
For example, a pen holder for holding a pen for printing in which the pen tip is brought into contact with the surface of the nail to perform printing may be provided, and printing may be performed using the pen. Further, a configuration may be configured in which both an inkjet printing means as in the present embodiment and a pen holder for holding a pen for printing are provided, and printing is performed using a plurality of printing means.

Further, in the present embodiment, the background is printed as the pre-printing, and the decoration is printed as the post-printing. However, the pre-printing and the post-printing according to the present invention are not limited to this, and for example, both may be a base (first base and second base), and both may be decorations (first decoration and second decoration). ) May be.

Further, in the present embodiment, the nail printing device 1 configures a printing system in cooperation with the terminal device 9, inputs a printing start instruction and the like on the terminal device 9 side, and then performs a printing operation on the nail printing device 1 side. However, the nail printing apparatus 1 is not limited to the one shown here.
For example, an operation unit and a display unit for inputting various instructions, a print data generation unit for generating print data, and the like are provided on the nail print device 1 side so that the control device of the nail print device 1 performs these processes. May be good. In such a configuration, the nail printing device 1 can be configured to complete the printing operation by itself without coordinating with the terminal device.

Further, various data such as the nail design, the photographed image data, and the print tilt setting table may be stored in the storage unit of the terminal device or may be stored in the storage unit of the nail print device 1.
Further, various data may be stored in a server device or the like that can be connected via a network line or the like, and the terminal device or the nail print device 1 may access the server device or the like and configure the data so that the data can be referred to.
By doing so, it becomes possible to select a design to be printed from among more nail designs.

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 nail area detecting means for detecting a nail area based on an image of a finger to be printed, and a nail area detecting means.
A setting means for setting at least a part of the claw area detected by the claw area detecting means as a preprint setting area for preprinting, and a setting means.
A printing means for printing preprints and
A post-printing area detecting means that detects a pre-printed area as a post-printing area by the printing means based on an image of a finger to be printed, which is pre-printed by the printing means.
A reference point setting means for setting a post-print area reference point corresponding to the post-print area, or setting a pre-print setting area reference point and the post-print area reference point corresponding to the pre-print setting area.
Equipped with
The printing means is a printing apparatus characterized in that post-printing is printed on the claw area based on information between any reference point set by the reference point setting means and the front printing setting area.
<Claim 2>
When the pre-print setting area is printed by the print means, the acquisition means for acquiring the contour information of the pre-print setting area and the acquisition means.
A reference position setting means for setting a reference position in the preprint setting area, and
Equipped with
The reference point setting means sets the post-print area reference point, and calculates the pre-print setting area reference point based on the post-print area reference point.
The printing means is
The print data in which the pre-print setting area is arranged so as to match the reference position with the pre-print setting area reference point is generated.
The printing apparatus according to claim 1, wherein post-printing is printed on the nail region based on the print data.
<Claim 3>
The printing means includes an acquisition means for acquiring the size of the pre-print setting area when the pre-print setting area is printed.
The printing means is
The contour of the post-print area is enlarged or reduced so that the size of the post-print area detected by the post-print area detection means matches the size of the pre-print setting area.
Generates print data of the print range having the enlarged or reduced contour, and generates print data.
The printing apparatus according to claim 1, wherein post-printing is printed on the nail region based on the print data.
<Claim 4>
The post-printing area detecting means includes a photographing unit capable of acquiring the dimensions of an object located on a predetermined reference plane from an image obtained by photographing the object.
The reference point setting means sets the intersection of the post-printing area and the optical axis of the photographing unit as the post-printing area reference point.
The printing apparatus according to claim 3, wherein the printing means enlarges or reduces the outline of the post-printing area based on the post-printing area reference point.
<Claim 5>
The reference point setting means sets the post-print area reference point, and calculates the pre-print setting area reference point based on the post-print area reference point.
The printing apparatus according to claim 3, wherein the printing means generates the print data having the pre-print setting area reference point and the enlarged or reduced contour.
<Claim 6>
The printing means includes an acquisition means for acquiring the size of the pre-print setting area when the pre-print setting area is printed.
The reference point setting means calculates the pre-print setting area reference point based on the ratio of the size of the post-print area detected by the post-print area detection means to the size of the pre-print setting area. The printing apparatus according to claim 5.
<Claim 7>
The size of the preprint setting area is represented by the length of each side of the circumscribed quadrangle of the preprint setting area.
The printing apparatus according to claim 5 or 6, wherein the size of the post-printing area is represented by the length of each side of the circumscribed quadrangle of the post-printing area.
<Claim 8>
The post-printing area detecting means is
Including a photographing unit capable of acquiring the dimensions of an object located on a predetermined reference plane from an image obtained by photographing the object.
When the claw having the post-printing area is closer to the photographing portion than the reference surface, the post-printing area is detected larger than the pre-printing setting area, and when the claw is farther from the photographing portion than the reference surface, the post-printing area is detected. The printing apparatus according to any one of claims 1 to 7, wherein the post-print area is detected to be smaller than the pre-print setting area.
<Claim 9>
It is a control method of a printing device including a photographing unit and a printing unit.
The control means
A nail area detection step of detecting a nail area based on an image of a finger to be printed by the photographing unit, and a nail area detection step.
A setting step of setting at least a part of the claw area detected by the claw area detection step as a preprint setting area to be preprinted, and a setting step.
The first printing step of printing the preprint by the printing unit, and
After detecting the area where the pre-printing was printed by the first printing step as the post-printing area based on the image taken by the photographing unit of the finger to be printed which was pre-printed by the first printing step. Print area detection process and
A reference point setting step of setting a post-print area reference point corresponding to the post-print area, or setting a pre-print setting area reference point and the post-print area reference point corresponding to the pre-print setting area.
A second printing step of printing post-printing on the claw area by the printing unit based on the information of any reference point set in the reference point setting step and the pre-printing setting area.
A method of controlling a printing device, characterized in that it performs.
<Claim 10>
It is a control program of a printing device including a photographing unit and a printing unit.
Computer,
A nail area detecting means for detecting a nail area based on an image of a finger to be printed by the photographing unit.
A setting means for setting at least a part of the claw area detected by the claw area detecting means as a preprint setting area for preprinting.
A first print control means for printing a preprint by the printing unit,
A post-print area for detecting an area where pre-printing is printed by the printing unit as a post-printing area based on an image of a finger to be printed pre-printed by the first print control means taken by the photographing unit. Detection means,
A reference point setting means for setting a post-print area reference point corresponding to the post-print area, or setting a pre-print setting area reference point and the post-print area reference point corresponding to the pre-print setting area.
A second print control means for printing post-printing on the claw area by the printing unit based on information between any reference point set by the reference point setting means and the pre-print setting area.
A control program for a printing device, characterized in that it functions as a printing device.

1 Nail printing device 40 Printing unit 50 Imaging unit 51 Imaging device 80 Control device 81 Control unit Ax Optical axis L Reference surface M Claw position (position on the optical axis)
R0 Real area (pre-print setting area)
P0 Reference point of real area (reference point of pre-print setting area)
R1 recognition area (post-print area)
P1 recognition area reference point (post-print area reference point)
P2 Reference position in the actual area (reference position in the pre-print setting area)

The present invention relates to a printing apparatus, and a printing method及beauty programs.

In order to achieve the above object, the printing apparatus according to the first aspect of the present invention is a printing apparatus for performing post-printing so as to overlap the pre-printing area of the printing target on which pre-printing has been performed in advance. Before being detected from the acquisition means for acquiring information related to the size of the preprint area recorded when preprinting is performed and the image to be printed acquired at a timing different from the timing at which preprinting is performed. The area setting means for setting the position and size of the print area as the post-print area to be post-printed, the size of the pre-print area acquired by the acquisition means, and the post-print area set by the area setting means. When the size does not match, the size of the post-print area set by the area setting means is enlarged or reduced so as to match the size of the pre-print area acquired by the acquisition means, and is enlarged. Alternatively, it is provided with a correction means for correcting the position of the reduced post-print area so as to overlap the position of the pre-print area to be printed, and a printing means for performing post-printing on the post-print area corrected by the correction means. characterized in that was.
Further, the printing device according to the second aspect of the present invention is a printing device for performing post-printing so as to overlap the pre-printing area of the print target to which pre-printing has been performed, and pre-printing has been performed. The first acquisition means for acquiring the shape of the contour of the pre-printed area, the position of the contour, and the size of the first figure in contact with the contour of the pre-printed area recorded at the time, and the timing different from the timing at which the pre-printing is performed. Acquires the shape of the contour of the pre-printed area detected from the acquired image to be printed, the position of the contour, and the size of the second figure which is similar to the first figure and is in contact with the contour of the pre-printed area. A predetermined reference in the first figure acquired by the first acquisition means based on the information including the position of the second acquisition means and the predetermined reference point in the second figure acquired by the second acquisition means. The predetermined reference point in the first figure acquired by the first acquisition means at the position setting means for setting the print reference position where the point should be arranged and the print reference position set by the position setting means. And the post-print area setting means for setting the shape and position of the outline of the pre-print area corresponding to the arranged first figure as the post-print area, and the post-print set by the post-print area setting means. It is characterized by being provided with a printing means for performing post-printing on the area.
Further, the printing device according to the third aspect of the present invention is a printing device for performing post-printing so as to overlap the pre-printing area of the print target to which pre-printing has been performed, and pre-printing has been performed. The first acquisition means for acquiring the shape of the contour of the pre-printed area, the position of the contour, and the size of the first figure in contact with the contour of the pre-printed area recorded at the time, and the timing different from the timing at which the pre-printing is performed. Acquires the shape of the contour of the pre-printed area detected from the acquired image to be printed, the position of the contour, and the size of the second figure which is similar to the first figure and is in contact with the contour of the pre-printed area. A predetermined reference in the first figure acquired by the first acquisition means based on the information including the position of the second acquisition means and the predetermined reference point in the second figure acquired by the second acquisition means. The predetermined reference point in the first figure acquired by the first acquisition means at the position setting means for setting the print reference position where the point should be arranged and the print reference position set by the position setting means. And the post-print area setting means for setting the shape and position of the outline of the pre-print area corresponding to the arranged first figure as the post-print area, and the post-print set by the post-print area setting means. It is characterized by being provided with a printing means for performing post-printing on the area.

Claims (10)

A nail area detecting means for detecting a nail area based on an image of a finger to be printed, and a nail area detecting means.
A setting means for setting at least a part of the claw area detected by the claw area detecting means as a preprint setting area for preprinting, and a setting means.
A printing means for printing preprints and
A post-printing area detecting means that detects a pre-printed area as a post-printing area by the printing means based on an image of a finger to be printed, which is pre-printed by the printing means.
A reference point setting means for setting a post-print area reference point corresponding to the post-print area, or setting a pre-print setting area reference point and the post-print area reference point corresponding to the pre-print setting area.
Equipped with
The printing means is a printing apparatus characterized in that post-printing is printed on the claw area based on information between any reference point set by the reference point setting means and the front printing setting area. When the pre-print setting area is printed by the print means, the acquisition means for acquiring the contour information of the pre-print setting area and the acquisition means.
A reference position setting means for setting a reference position in the preprint setting area, and
Equipped with
The reference point setting means sets the post-print area reference point, and calculates the pre-print setting area reference point based on the post-print area reference point.
The printing means is
The print data in which the pre-print setting area is arranged so as to match the reference position with the pre-print setting area reference point is generated.
The printing apparatus according to claim 1, wherein post-printing is printed on the nail region based on the print data. The printing means includes an acquisition means for acquiring the size of the pre-print setting area when the pre-print setting area is printed.
The printing means is
The contour of the post-print area is enlarged or reduced so that the size of the post-print area detected by the post-print area detection means matches the size of the pre-print setting area.
Generates print data of the print range having the enlarged or reduced contour, and generates print data.
The printing apparatus according to claim 1, wherein post-printing is printed on the nail region based on the print data. The post-printing area detecting means includes a photographing unit capable of acquiring the dimensions of an object located on a predetermined reference plane from an image obtained by photographing the object.
The reference point setting means sets the intersection of the post-printing area and the optical axis of the photographing unit as the post-printing area reference point.
The printing apparatus according to claim 3, wherein the printing means enlarges or reduces the outline of the post-printing area based on the post-printing area reference point. The reference point setting means sets the post-print area reference point, and calculates the pre-print setting area reference point based on the post-print area reference point.
The printing apparatus according to claim 3, wherein the printing means generates the print data having the pre-print setting area reference point and the enlarged or reduced contour. The printing means includes an acquisition means for acquiring the size of the pre-print setting area when the pre-print setting area is printed.
The reference point setting means calculates the pre-print setting area reference point based on the ratio of the size of the post-print area detected by the post-print area detection means to the size of the pre-print setting area. The printing apparatus according to claim 5. The size of the preprint setting area is represented by the length of each side of the circumscribed quadrangle of the preprint setting area.
The printing apparatus according to claim 5 or 6, wherein the size of the post-printing area is represented by the length of each side of the circumscribed quadrangle of the post-printing area. The post-printing area detecting means is
Including a photographing unit capable of acquiring the dimensions of an object located on a predetermined reference plane from an image obtained by photographing the object.
When the claw having the post-printing area is closer to the photographing portion than the reference surface, the post-printing area is detected larger than the pre-printing setting area, and when the claw is farther from the photographing portion than the reference surface, the post-printing area is detected. The printing apparatus according to any one of claims 1 to 7, wherein the post-print area is detected to be smaller than the pre-print setting area. It is a control method of a printing device including a photographing unit and a printing unit.
The control means
A nail area detection step of detecting a nail area based on an image of a finger to be printed by the photographing unit, and a nail area detection step.
A setting step of setting at least a part of the claw area detected by the claw area detection step as a preprint setting area to be preprinted, and a setting step.
The first printing step of printing the preprint by the printing unit, and
After detecting the area where the pre-printing was printed by the first printing step as the post-printing area based on the image taken by the photographing unit of the finger to be printed which was pre-printed by the first printing step. Print area detection process and
A reference point setting step of setting a post-printing area reference point corresponding to the post-printing area, or setting a pre-printing setting area reference point and the post-printing area reference point corresponding to the pre-printing setting area.
A second printing step of printing post-printing on the claw area by the printing unit based on the information of any reference point set in the reference point setting step and the pre-printing setting area.
A method of controlling a printing device, characterized in that it performs. It is a control program of a printing device including a photographing unit and a printing unit.
Computer,
A nail area detecting means for detecting a nail area based on an image of a finger to be printed by the photographing unit.
A setting means for setting at least a part of the claw area detected by the claw area detecting means as a preprint setting area for preprinting.
A first print control means for printing a preprint by the printing unit,
A post-print area for detecting an area where pre-printing is printed by the printing unit as a post-printing area based on an image of a finger to be printed pre-printed by the first print control means taken by the photographing unit. Detection means,
A reference point setting means for setting a post-print area reference point corresponding to the post-print area, or setting a pre-print setting area reference point and the post-print area reference point corresponding to the pre-print setting area.
A second print control means for printing post-printing on the claw area by the printing unit based on information between any reference point set by the reference point setting means and the pre-print setting area.
A control program for a printing device, characterized in that it functions as a printing device.

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