WO2018029961A1

WO2018029961A1 - Plotter and foil pressing method

Info

Publication number: WO2018029961A1
Application number: PCT/JP2017/020942
Authority: WO
Inventors: 勝久長谷川; 阿部　大輔; 啓司瀧本
Original assignee: ブラザー工業株式会社
Priority date: 2016-08-09
Filing date: 2017-06-06
Publication date: 2018-02-15
Also published as: JP2018024157A

Abstract

Provided are: a plotter that is capable of, with a simple configuration, executing a foil pressing process on a workpiece; and a foil pressing method. The plotter is provided with: a mounting part to which a pressing member can be mounted; a first moving mechanism; a second moving mechanism; and a control unit. The control unit specifies a pattern to be formed on the workpiece (S14). The control unit executes a plotting process for plotting the specified pattern on the workpiece by a pen (S21 to S28). The control unit specifies the plotting area in which the pattern has been plotted on the workpiece by a liquid adhesive, controls the first moving mechanism and the second moving mechanism after the plotting process has been executed, and causes a pressing area including the specified plotting area to be pressed from above a foil sheet arranged on the workpiece by the pressing member mounted to the mounting part.

Description

Plotter and foil stamping method

The present invention relates to a plotter and a foil stamping method.

There is known an apparatus for performing a foil pressing process in which a foil such as gold or silver is attached to a workpiece such as paper. The apparatus described in Patent Document 1 places a foil sheet on a workpiece, presses a portion for processing a pattern from the top of the foil sheet with the tip of a heated thermal pen, and transfers the foil to the workpiece.

JP 2005-313465 A

The conventional device needs a configuration for heating the thermal pen.

An object of the present invention is to provide a plotter and a foil stamping method capable of stamping a workpiece with a simple configuration.

A plotter according to a first aspect of the present invention includes a mounting portion capable of mounting a pen containing a liquid adhesive and a pressing member that presses a workpiece, and the mounting portion and the workpiece are relatively close to each other. And a first moving mechanism that can move in a moving direction to be separated, and a second moving mechanism that can relatively move the mounting portion and the workpiece in a direction that intersects the moving direction by the first moving mechanism. A control unit, and the control unit draws the pattern specified by the pattern specifying unit with the pen on the workpiece with a pattern specifying unit that specifies a pattern to be processed on the workpiece. A drawing unit that executes a drawing process; a region specifying unit that specifies a drawing region in which the pattern is drawn with the liquid adhesive on the workpiece; and the drawing unit that executes the drawing process, The first moving mechanism and the second moving device And pressing the pressing area including the drawing area specified by the area specifying means from the foil sheet disposed on the workpiece by the pressing member mounted on the mounting portion. It functions as a pressing means for executing.

The plotter according to the first aspect of the present invention can automatically perform both the drawing process and the pressing process. The user places the foil sheet on the pattern drawn on the workpiece with the liquid adhesive by the plotter according to the first aspect, presses the pressing area with the plotter, and then peels off the foil sheet, so that the workpiece is desired. A foil stamping process representing the pattern of Since the plotter sticks the foil to the workpiece by pressing the portion drawn with the adhesive on the workpiece, the foil pressing can be performed with a simple configuration. When a pen that contains ink is attached to the attachment portion, the plotter can draw an ink on the workpiece.

The foil stamping method according to the second aspect of the present invention is a foil stamping method for performing foil stamping on a workpiece. A drawing step of drawing using, a placement step of placing a foil sheet on the workpiece on which the pattern is drawn with the liquid adhesive, and the liquid adhesion on the workpiece on which the foil sheet is placed And a pressing step of pressing the drawing area where the pattern is drawn with an agent with a pressing member.

According to the foil stamping method of the second aspect of the present invention, the user can perform foil stamping on the workpiece without using a heating device. The plotter program according to the third aspect of the present invention may cause the control unit of the plotter to function as various processing means of the plotter of the first aspect. The non-transitory computer-readable medium according to the fourth aspect of the present invention may store the plotter program according to the second aspect.

FIG. 4 is a right side view of a pen 45 and a pressing member 35 that can be attached to the plotter 1 via a cartridge 4, and a perspective view of the plotter 1. 2 is a block diagram showing an electrical configuration of the plotter 1. FIG. It is a flowchart of the foil stamping method. It is a flowchart of a drawing control process. It is a flowchart of the data generation process performed by the drawing control process of FIG. It is explanatory drawing of the process which produces | generates the plot data which instruct | indicates the drawing position of the pattern 64 of a specific example. It is explanatory drawing of the drawing order which draws the pattern 64 of a specific example with the pen 45. FIG. It is a flowchart of a press control process. It is explanatory drawing of the process of producing | generating the plot data which instruct | indicates the press position which presses the press area | region containing the drawing area | region of the pattern 64 of a specific example. It is explanatory drawing of the drawing control process of 2nd embodiment.

First and second embodiments embodying the present invention will be described in order with reference to the drawings. The drawings to be referred to are used for explaining the technical features that can be adopted by the present invention, and the configuration of the apparatus described is not intended to be limited to this, but merely an illustrative example.

The physical configuration of the plotter 1 common to the first and second embodiments will be described with reference to FIG. In the following description, the lower left side, the upper right side, the lower right side, the upper left side, the upper side, and the lower side in the perspective view of the plotter 1 in FIG. Let it be the side. That is, the extension direction of a main body cover 9 described later is the left-right direction. The surface on which the operation unit 50 is disposed is the upper surface of the plotter 1.

As shown in FIG. 1, the plotter 1 is an apparatus that can perform processing including drawing and pressing on a sheet-like workpiece 20. The workpiece 20 is, for example, a sheet-like paper or a resin sheet. The workpiece 20 only needs to be able to draw a pattern with a pen 45 described later. The plotter 1 can further generate image data representing an image of the upper surface of the workpiece 20. The plotter 1 includes a main body cover 9, an operation unit 50, a platen 3, a head 5, a scanner unit 6 (see FIG. 2), a Y moving mechanism 7, and an X moving mechanism 8.

The main body cover 9 is a substantially rectangular box-shaped casing that is long in the left-right direction. The main body cover 9 includes an opening 91 and a cover 92. The opening 91 is an opening provided in the front portion of the main body cover 9. The cover 92 is a plate-like member that is long in the left-right direction, and an opening 91 is supported on the lower end side so as to be opened and closed. In FIG. 1, the cover 92 is opened and the opening 91 is opened.

The operation unit 50 is provided on the right side portion of the upper surface of the main body cover 9. The operation unit 50 includes a liquid crystal display (LCD) 51, a plurality of operation switches 52, and a touch panel 53. The LCD 51 displays an image including various items such as commands, illustrations, setting values, and messages. The touch panel 53 is provided on the surface of the LCD 51. The user performs a pressing operation on the touch panel 53 using either a finger or a stylus pen (hereinafter, this operation is referred to as “panel operation”). The plotter 1 recognizes which item has been selected corresponding to the pressed position detected by the touch panel 53. The user can use the operation switch 52 and the touch panel 53 to select a pattern displayed on the LCD 51, set various parameters, perform input operations, and the like.

The platen 3 is provided in the main body cover 9. The platen 3 is a plate-like member that extends in the left-right direction. The platen 3 receives the lower surface of the holding sheet 10. The holding sheet 10 is set on the platen 3 with the opening 91 opened. The holding sheet 10 has a rectangular sheet shape. The holding sheet 10 is made of, for example, a synthetic resin material. On the upper surface of the holding sheet 10, there is an adhesive layer 100 in which an adhesive is applied to a substantially rectangular region inside except for the peripheral edge portions (left edge portion 101, right edge portion 102, rear edge portion 103, front edge portion 104). Provided. The workpiece 20 is affixed and held on the adhesive layer 100. The workpiece 20 may be set directly on the platen 3 without being held by the holding sheet 10.

The head 5 includes a carriage 19, a mounting portion 32, and a Z moving mechanism 33. The cartridge 32 can be attached to and detached from the mounting portion 32. The cartridge 4 can be mounted with a plurality of types of processing members used for processing the workpiece 20. The processing members in this example are a pen 45 and a pressing member 35. The user can select a processing member suitable for the type, thickness, and type of processing of the workpiece 20 and attach it to the cartridge 4. The mounting portion 32 of this example can mount a pen 45 containing a liquid adhesive via the cartridge 4. The mounting portion 32 can mount the pressing member 35 via the cartridge 4. The mounting portion 32 of this example can alternatively mount the pen 45 and the pressing member 35 via the cartridge 4. The mounting portion 32 may be capable of mounting a plurality of cartridges at the same time.

The Z moving mechanism 33 is configured to be movable in a moving direction in which the mounting portion 32 and the workpiece 20 are relatively approached and separated from each other. The Z moving mechanism 33 of this example drives the mounting portion 32 and the cartridge 4 in the vertical direction (also referred to as the Z direction). The Z moving mechanism 33 includes a transmission mechanism 43 and a Z-axis motor 34 (see FIG. 2). The transmission mechanism 43 decelerates the rotational motion of the Z-axis motor 34 and converts it into a vertical motion and transmits it to the mounting portion 32. The cartridge 4 attached to the attachment part 32 moves between a lowered position and an elevated position in accordance with the driving of the Z-axis motor 34. The lowered position is the position of the cartridge 4 when processing the workpiece 20. The ascending position is a position where the processing member is separated from the workpiece 20 by a predetermined distance.

The scanner unit 6 is configured to be able to execute scan processing in accordance with instructions from the CPU 2 described later. The scanning process is a process of reading an image of an object such as the workpiece 20 held on the holding sheet 10 by the scanner unit 6 and generating image data. The scanner unit 6 is, for example, a contact image sensor (CIS). Although not shown, the scanner unit 6 includes a line sensor, a light source (lamp), and a lens. The line sensor is provided on the lower surface of the scanner unit 6 and includes a plurality of image sensors arranged in parallel in the left-right direction (also referred to as the X direction) of the plotter 1. The scanner unit 6 is located behind a guide rail 22 described later. The scanner unit 6 extends in the X direction and is provided downward. The width dimension in the X direction of the holding sheet 10 is substantially the same as the length in the X direction of the scanner unit 6 (line sensor). The scanner unit 6 reads an image of the upper surface of the object in a state where the upper surface of the object held on the holding sheet 10 is close to the line sensor.

The Y moving mechanism 7 and the X moving mechanism 8 described later are configured to be able to move the mounting portion 32 and the workpiece 20 relatively in the direction intersecting the Z direction. The Y moving mechanism 7 is configured to be able to move the workpiece 20 in the first direction intersecting the Z direction with respect to the mounting portion 32. The first direction in this example is the front-rear direction, and the first direction is also referred to as the Y direction. The Y moving mechanism 7 of this example is configured to be able to move the holding sheet 10 set on the platen 3 in the Y direction of the plotter 1. The Y moving mechanism 7 includes a driving roller 12, a pinch roller 13, a mounting frame 14, a Y axis motor 15, and a speed reducing mechanism 17. The drive roller 12 and the pinch roller 13 are rotatably supported between a pair of side wall portions 111 and 112 of the machine casing 11 in the main body cover 9. The drive roller 12 and the pinch roller 13 extend in the X direction and are arranged side by side in the vertical direction. A roller portion (not shown) is provided on each of the right and left portions of the pinch roller 13. The mounting frame 14 is fixed to the outer surface side (right side) of the side wall portion 112. A Y-axis motor 15 is attached to the attachment frame 14. The Y-axis motor 15 is, for example, a stepping motor. An output shaft of the Y-axis motor 15 is fixed to a drive gear (not shown) of the speed reduction mechanism 17. The drive gear meshes with a driven gear (not shown). The driven gear is fixed to the tip of the right end portion of the drive roller 12.

When the holding sheet 10 is moved, the left edge portion 101 of the holding sheet 10 is sandwiched between the driving roller 12 and the left roller portion of the pinch roller 13. The right edge portion 102 of the holding sheet 10 is sandwiched between the driving roller 12 and the right roller portion. When the Y-axis motor 15 is driven forward or reversely, the rotational movement of the Y-axis motor 15 is transmitted to the drive roller 12 via the speed reduction mechanism 17. Thereby, the holding sheet 10 is moved backward or forward. At this time, the roller portion of the pinch roller 13 does not contact the workpiece 20 disposed on the holding sheet 10. The plotter 1 includes a roller 40 that presses the workpiece 20 toward the platen 3 so that the workpiece 20 moved by the Y moving mechanism 7 does not contact the scanner unit 6. The roller 40 is disposed behind the drive roller 12.

The X moving mechanism 8 is configured to be able to move the mounting portion 32 with respect to the workpiece 20 in a second direction that intersects the Z direction and the first direction (Y direction). The second direction in this example is the left-right direction, and the second direction is also referred to as the X direction. The moving direction of the mounting portion 32 in this example is orthogonal to the moving direction of the holding sheet 10 that can hold the workpiece 20 by the Y moving mechanism 7. The X moving mechanism 8 includes a pair of upper and lower guide rails 21 and 22, a mounting frame 24, an X-axis motor 25, a drive gear 27 and a driven gear 29 as a speed reduction mechanism, a transmission mechanism 30, and the like. The guide rails 21 and 22 are fixed between the side wall portions 111 and 112. The guide rails 21 and 22 are located slightly above the rear part of the pinch roller 13. The guide rails 21 and 22 extend substantially parallel to the pinch roller 13, that is, in the X direction. The carriage 19 of the head 5 is supported by the guide rails 21 and 22 so as to be movable in the X direction along the guide rails 21 and 22.

The mounting frame 24 is fixed to the outer surface side (left side) near the rear portion of the side wall portion 111. The X-axis motor 25 is attached downwardly behind the attachment frame 24. The drive gear 27 is fixed to the output shaft of the X-axis motor 25. The X-axis motor 25 is, for example, a stepping motor. The driven gear 29 meshes with the drive gear 27. The transmission mechanism 30 includes a pair of left and right timing pulleys (not shown) and an endless timing belt hung on the pair of left and right timing pulleys. One timing pulley 28 is provided on the mounting frame 24 so as to be rotatable integrally with the driven gear 29. The other timing pulley is provided on the mounting frame 14. The timing belt extends in the X direction and is connected to the carriage 19. The X moving mechanism 8 converts the rotational motion of the X axis motor 25 into motion in the X direction and transmits it to the carriage 19. When the X-axis motor 25 is driven forward or reversely, the rotational motion of the X-axis motor 25 is transmitted to the timing belt via the drive gear 27, the driven gear 29, and the timing pulley 28. Thereby, the carriage 19 is moved leftward or rightward. Thus, the head 5 moves in the X direction.

Referring to FIG. 1, a pen 45 that can be mounted on the mounting portion 32 via the cartridge 4 will be described. The pen 45 is a ballpoint pen-like liquid adhesive applicator. The pen 45 includes a cylinder portion 46, a pen tip portion 47, and a window portion 48. The cylindrical portion 46 has a hollow cylindrical shape and accommodates the liquid adhesive 44 therein. The liquid adhesive 44 has only to be fluid, can be accommodated in the pen 45, and can be attached to the workpiece 20 by the pen 45. The liquid adhesive 44 may be a liquid adhesive containing synthetic resin such as polyvinyl acetate, chloroprene rubber, urea resin, epoxy resin, etc. in addition to liquid glue. In the present embodiment, the expression “adhesive” includes an adhesive. The liquid adhesive 44 of this example includes an acrylic emulsion, and is colored with a pigment that develops color when a volatile solvent such as water has a certain concentration or more. When a pattern is drawn on the workpiece 20 with the pen 45 of this example, while the solvent of the liquid adhesive 44 attached to the workpiece 20 is equal to or higher than a certain concentration, the user can draw the drawn pattern on the liquid adhesive. It can be visually recognized by the pigment contained in 44. When the solvent of the liquid adhesive 44 adhered to the workpiece 20 becomes smaller than a certain concentration due to volatilization, the liquid adhesive 44 becomes colorless and transparent, and the acrylic resin component contained in the liquid adhesive 44 is the workpiece 20. Is laminated.

The window portion 48 is light transmissive on the side surface (outer peripheral surface) of the cylindrical portion 46, and the user can visually recognize the remaining amount of the liquid adhesive 44 through the window portion 48. The cylindrical portion 46 of this example forms a window portion 48 where the entire side surface (outer peripheral surface) of the cylindrical portion 46 is transparent. The cylinder part 46 is provided with a scale 49. The scale 49 in this example includes three or more lines 491 to 494. The three or more lines 491 to 494 are each perpendicular to the direction in which the pen 45 extends. The spacing between adjacent lines among the three or more lines 491 to 494 is different from each other. The distance between the adjacent lines 491 to 494 among the three or more lines is closer to the pen tip portion 47 than the distance from the pen tip portion 47 is smaller. The scale 49 of this example includes four lines, and is the lines 491 to 494 in order from the pen tip portion 47. A numerical value representing the remaining amount of the liquid adhesive 44 accommodated in the pen 45 is printed on the side of each line 491 to 494 away from the pen tip portion 47. Numerical values representing the remaining amount of the liquid adhesive 44 are 4, 3, 2, 1 in order from the side closer to the pen tip portion 47. The numerical value indicating the remaining amount of the liquid adhesive 44 when the liquid level of the liquid adhesive 44 is between the lines 494 and 493 is 4. Similarly, when the liquid level of the liquid adhesive 44 is between the line 493 and the line 492, the numerical value indicating the remaining amount of the liquid adhesive 44 is 3. When the liquid level of the liquid adhesive 44 is between the line 492 and the line 491, the numerical value indicating the remaining amount of the liquid adhesive 44 is 2. As shown in FIG. 1, when the liquid level of the liquid adhesive 44 is on the side farther from the pen tip portion 47 than the line 491, the numerical value indicating the remaining amount of the liquid adhesive 44 is 1.

The pen point portion 47 has a conical shape and is connected to one end of the cylindrical portion 46. The liquid adhesive 44 accommodated in the pen 45 is applied from the tip of the pen tip portion 47. Although not shown, the pen 45 of this example has a plurality of types of forms different from each other. The pen type is set according to, for example, a combination of the type of liquid adhesive, the thickness of the pen tip, and the shape of the pen tip. The plurality of types of pens 45 in this example are mounted on the mounting unit 32 via the cartridge 4 and the thicknesses of lines drawn when moved at the same speed by the plotter 1 are different from each other.

With reference to FIG. 1, the pressing member 35 that can be mounted on the mounting portion 32 via the cartridge 4 will be described. The pressing member 35 is a member for pressing the workpiece 20 on which the foil sheet is disposed from above. The foil sheet is a sheet-like metal-deposited foil for foil pressing. The metal vapor-deposited foil is obtained by vapor-depositing a metal such as aluminum (Al) on a resin film provided with a release agent. The resin film is, for example, a polyethylene terephthalate (PET) film or a polyester (PEs) film. The pressing member 35 of this example has a pressing part 36 and a mounting part 37. The pressing portion 36 is a hemispherical portion made of a synthetic resin material provided on the side facing the workpiece 20. The mounting portion 37 is provided at the end of the pressing member 35 opposite to the pressing portion 36 and is detachably mounted on the cartridge 4 by being fitted into the cartridge 4 from below. Although not shown, the pressing member 35 of this example has a plurality of types of forms different from each other. The type of the pressing member 35 is set according to, for example, a combination of the shape, size, and material of the pressing portion 36. The plurality of types of pressing members 35 of this example are mounted on the mounting portion 32 via the cartridge 4, and the shape and size of the area in contact with the workpiece 20 when the mounting portion 32 is moved to the lowered position. Different from each other.

The electrical configuration of the plotter 1 will be described with reference to FIG. As shown in FIG. 2, the plotter 1 includes a CPU 2, a ROM 72, a RAM 73, and an input / output (I / O) interface 71. The CPU 2 is electrically connected to the ROM 72, the RAM 73, and the I / O interface 71. The CPU 2 manages the main control of the plotter 1. The ROM 72 stores various programs for operating the plotter 1. Examples of the program include a program for causing the plotter 1 to execute data, drawing control processing, and press control processing described later. The RAM 73 temporarily stores various programs, various data, setting values input by operating the operation switch 52, calculation results obtained by the CPU 2, and the like.

The I / O interface 71 is further connected to a flash memory 74, a scanner unit 6, an operation switch 52, a touch panel 53, a detection sensor 76, an LCD 51, a USB connector 61, and drive circuits 77 to 79. The flash memory 74 is a non-volatile storage element that stores various parameters and the like. The flash memory 74 of this example has a plurality of storage areas including a speed data storage area 741, a pen type storage area 742, a pressing member type storage area 743, and a pattern storage area 744.

The speed data storage area 741 stores a numerical value indicating the remaining amount of the liquid material accommodated by the pen 45 and a moving speed corresponding to the numerical value. The liquid body may be a substance having fluidity that can be drawn with the pen 45, and is, for example, ink, water, or a liquid adhesive, and in this example, the liquid adhesive 44. The speed data storage area 741 of this example stores a plurality of sets of correspondences between the numerical value of the scale 49 of the pen 45, the speed, and the threshold value. The numerical value indicating the remaining amount of the liquid material accommodated by the pen 45 and the moving speed corresponding to the numerical value may be expressed by mathematical expressions. The numerical value of the scale 49 is a numerical value indicating the remaining amount of the liquid adhesive 44 accommodated in the pen 45, and is any one of 1 to 4 described above. The speed is a relative moving speed (restricted moving speed) of the mounting portion 32 with respect to the workpiece 20. V1, V2, V3, and V4 are in descending order of movement speed. The moving speed of this example defines the moving speed for each of the Y moving mechanism 7 and the X moving mechanism 8. The moving speed may be a speed obtained by combining the moving speeds of both the Y moving mechanism 7 and the X moving mechanism 8. The threshold value is a numerical value used for the determination of changing the relative movement speed between the workpiece 20 and the mounting portion 32 according to the distance of the line drawn by the liquid material during execution of the drawing control process described later. Q1, Q2, Q3, and Q4 are in descending order. That is, the threshold value in this example is larger when the remaining amount of the liquid material is larger than when the remaining amount of the liquid material indicated by the information regarding the remaining amount is small.

In the pen type storage area 742, a plurality of sets of correspondences between the types of pens mounted on the mounting unit 32 and the intervals are stored. The pen type in this example is represented by any numerical value from 1 to 4. The interval defines the interval between the drawing line representing the contour of the pattern and the offset area inside the contour of the pattern when the pattern is drawn with the liquid adhesive 44 using the pen 45 mounted on the mounting portion 32. It is a numerical value. The interval in this example is determined in advance for each type of pen 45 based on the thickness of a reference line (for example, 0.3 mm when the pen type is 1). The thickness of the reference line may be set in advance according to a predetermined condition. The thickness of the reference line is, for example, the thickness of the line when the unused pen 45 is mounted on the mounting portion 32 and the line is drawn at a constant speed until the liquid adhesive contained in the pen 45 runs out. Average value. The interval is preferably 0.3 to 0.7 times the thickness of the reference line. The interval in this example is half the thickness of the reference line (for example, 0.15 mm when the pen type is 1). In the pressing member type storage area 743, a plurality of sets of correspondences between the types of the pressing members 35 mounted on the mounting unit 32 and the intervals are stored. The type of the pressing member 35 in this example is represented by any numerical value from 1 to 4. The interval is a numerical value that defines an interval between adjacent line segments included in the plurality of line segments included in the press line when the workpiece 20 is pressed using the pressing member 35 mounted on the mounting portion 32. The pressing line is a line representing the position of the pressing center by the pressing member 35 set in the pressing area. The center of the pressing member 35 in this example is the tip (lower end) of the hemispherical pressing portion 36. The interval between the plurality of line segments included in the pressing line is such as the size and shape of the area where the pressing member 35 mounted on the mounting portion 32 and the workpiece 20 contact when the mounting portion 32 is in the lowered position. Accordingly, it is preset for each type of the pressing member 35. The pattern storage area 744 stores a plurality of sets of correspondences between IDs for identifying patterns and pattern data related to patterns used in a drawing control process described later. The pattern data indicates the shape of a pattern to be drawn on the workpiece 20 using the pen 45 mounted on the cartridge 4.

The CPU 2 acquires the image data by controlling the scanner unit 6 and executing the scan process. The detection sensor 76 detects the leading end of the holding sheet 10 set on the platen 3. A detection signal from the detection sensor 76 is input to the CPU 2. The CPU 2 controls the LCD 51 to display an image. The LCD 51 can notify various instructions. A USB memory 60 can be connected to the USB connector 61. With the USB memory 60 connected to the USB connector 61, the CPU 2 can access each storage area provided in the USB memory 60. The drive circuits 77 to 79 drive the Y-axis motor 15, the X-axis motor 25, and the Z-axis motor 34, respectively. The CPU 2 controls the Y-axis motor 15, the X-axis motor 25, the Z-axis motor 34, and the like based on plot data that will be described later, and automatically performs processing on the workpiece 20 on the holding sheet 10.

Referring to FIG. 3, an outline of the foil stamping method when the workpiece 20 is stamped using the plotter 1 will be described. As an example, a case where the pattern 64 is subjected to foil pressing on the workpiece 20 will be described. The pattern 64 includes, as partial patterns, a circular pattern 62 and a rectangular pattern 63 that is long in the left-right direction. The up-down direction and the left-right direction in FIG.

As shown in FIG. 3, a pattern to be subjected to foil pressing on the workpiece 20 is specified (S1). In the process of S1, for example, a pattern selected by the user through a panel operation from patterns stored in the pattern storage area 744 of the plotter 1 is specified as a pattern 64 to be subjected to foil stamping. In the step S1, for example, the pattern 64 may be specified based on image data obtained by a scan process using the scanner unit 6. When a scanning process is executed using the plotter 1, the CPU 2 drives the Y moving mechanism 7 and the scanner unit 6 with the cartridge 4 held at the raised position. While the holding sheet 10 and the scanner unit 6 are relatively moved in the Y direction, the upper surface of the object held by the holding sheet 10 is read, and image data representing an image of the upper surface of the object is generated. In the step S1, for example, a pattern may be acquired from an external device through a USB memory or the like. The pattern may be a pattern drawn by the user through a panel operation.

The pattern 64 to be pressed by the foil specified in the step S1 is drawn using the pen 45 containing the liquid adhesive 44 (S2). In step S 2, the pen 45 is attached to the attachment portion 32 via the cartridge 4. The CPU 2 drives the Y moving mechanism 7 and the X moving mechanism 8 according to the plot data, moves the relative position between the workpiece 20 and the mounting portion 32 to the drawing start position, and then drives the Z moving mechanism 33. The cartridge 4 is moved to the lowered position. The plot data is data that instructs the movement of the Y moving mechanism 7, the X moving mechanism 8, and the Z moving mechanism 33. The movement of the Y moving mechanism 7 and the X moving mechanism 8 is instructed using coordinate data indicating coordinates in the XY coordinate system indicating the relative position between the workpiece 20 and the mounting portion 32. Details of the plot data will be described later. When the cartridge 4 is in the lowered position, the tip of the pen tip portion 47 of the pen 45 attached to the cartridge 4 is in contact with the upper surface of the workpiece 20. In this state, the CPU 2 drives the Y moving mechanism 7 and the X moving mechanism 8 according to the plot data, and relatively moves the workpiece 20 and the mounting portion 32 in the Y direction and the X direction that intersect the Z direction. . As a result, the pattern 64 identified in the step S 1 is drawn on the workpiece 20 by the liquid adhesive 44. When the line segment LS indicated by the plot data is drawn, the liquid adhesive 44 is applied to the region 69 surrounding the line segment LS in accordance with the thickness L8 of the pen tip portion 47. The plot data is preferably set in consideration of the thickness L8 of the line segment to be drawn. In the present example, the liquid adhesive 44 is applied to the contour of the pattern 64 on the workpiece 20 and the region inside the contour, such as a drawing region 66 indicated by vertical shading.

The foil sheet 65 is disposed on the workpiece 20 on which the pattern 64 is drawn with the liquid adhesive 44 (S3). In the step of S3, for example, after the solvent of the liquid adhesive 44 applied to the workpiece 20 is reduced and the coloring of the pigment of the liquid adhesive 44 is eliminated, the foil sheet 65 is removed from the workpiece 20 by the user. Placed on top. The drawing area 66 to which the liquid adhesive 44 is applied by the plotter 1 is covered with a foil sheet 65. For the purpose of appropriately dispersing the pressing force by the pressing member 35 and preventing the foil from being damaged by the pressing member 35, a resin protective sheet covering the foil sheet 65 may be disposed as necessary.

The pressing area 67 including the drawing area 66 on which the pattern 64 is drawn with the liquid adhesive 44 on the workpiece 20 on which the foil sheet 65 is arranged in S3 is pressed by the pressing member 35 (S4). In the step S4, when the pressing control process is executed using the plotter 1, the pressing member 35 is mounted on the mounting portion 32 via the cartridge 4. The CPU 2 drives the Y moving mechanism 7 and the X moving mechanism 8 according to the plot data, moves the relative position between the workpiece 20 and the mounting portion 32 to the pressing start position, and then drives the Z moving mechanism 33. The cartridge 4 is moved to the lowered position. The pressing portion 36 of the pressing member 35 presses the workpiece 20 on the holding sheet 10 from above the foil sheet 65. In this state, the CPU 2 drives the Y moving mechanism 7 and the X moving mechanism 8 according to the plot data, and relatively moves the workpiece 20 and the mounting portion 32 in the Y direction and the X direction. Since the tip shape of the pressing portion 36 in this example is hemispherical, the workpiece 20 and the mounting portion 32 can move relatively smoothly compared to the case where the tip shape is square. The plotter 1 presses the pressing area 67 having the shape indicated by the plot data with the pressing member 35. As a result, the foil sheet 65 adheres to the drawing area 66 drawn with the liquid adhesive 44.

After the pressing step, the foil sheet 65 is peeled off from the workpiece 20, and the foil pieces adhering outside the drawing region 66 of the workpiece 20 are removed (S5). In the process of S5, when the foil sheet 65 is pulled away from the workpiece 20 in order from the end, the foil in the drawing area 66 drawn with the liquid adhesive 44 remains on the workpiece 20 side. The user removes unnecessary foil adhering to the vicinity of the outline of the pattern 64 with a brush, a silicone rubber sheet, or the like as necessary. Through the above steps, the foil 68 is attached to the workpiece 20 in a pattern 64 shape, and the foil pressing process is completed.

With reference to FIG. 4 to FIG. 9, the drawing control process and the press control process executed by the plotter 1 of the first embodiment in the above-described foil pressing method will be described. When the CPU 2 receives the start instruction, the CPU 2 executes the drawing control process shown in FIG. 4 based on the program stored in the ROM 72. In the present embodiment, when a start instruction is input through a panel operation, the CPU 2 determines that a process start instruction has been received. The start instruction may be input by other methods. For example, when a specific switch among the plurality of operation switches 52 is pressed, the CPU 2 may determine that a start instruction has been received. As an example, the case where the pattern 64 of FIG. 6 and 7 correspond to the Y direction and X direction of the plotter 1. In a specific example, the thickness of a line serving as a reference for the pen 45 is 0.3 mm. 6 and 7 schematically show the drawing lines and the filled lines represented by the plot data, and the intervals between the lines do not represent the actual intervals between the drawing lines and the filled lines and the thickness of the lines.

The CPU 2 accepts designation of a pattern to be pressed on the workpiece 20 by the user (S11). In this example, the user selects a target pattern to be subjected to foil pressing from the patterns stored in the pattern storage area 744 by panel operation. The CPU 2 accepts a pattern input by panel operation as a target pattern. The CPU 2 determines whether or not a scan instruction has been input (S12). The scan instruction is an instruction to start the scanning process of the workpiece 20 by the scanner unit 6. The user holds the workpiece 20 on the holding sheet 10 and sets the platen 3, and then inputs a scan instruction through a panel operation. When the scan instruction is not input (S12: NO), the CPU 2 waits until the scan instruction is input. When the scan instruction is input (S12: YES), the CPU 2 drives the scanner unit 6 and the drive circuit 77 to scan the workpiece 20 held on the holding sheet 10 (S13). The plotter 1 of this example displays on the LCD 51 an image in which the pattern 64 received in S11 is superimposed on the image obtained by scanning the workpiece 20 to be subjected to the foil stamping process. Thereby, the user can set the arrangement of the pattern 64 with respect to the workpiece 20 while confirming the processed finish image with the image. The processes of S12 and S13 may be omitted as necessary.

CPU2 specifies the pattern processed into the workpiece 20 (S14). In the specific example, the pattern 64 received in S 11 is specified as a pattern to be processed into the workpiece 20. The CPU 2 sets the arrangement of the specified pattern 64 on the workpiece 20 (S15). The user inputs an instruction for designating the arrangement of the pattern 64 by panel operation while checking the LCD 51. CPU2 sets arrangement | positioning of the pattern 64 on the to-be-processed object 20 based on the instruction | indication input by panel operation. The arrangement of the pattern may be set by other methods such as setting based on coordinates input from the user.

CPU 2 executes data generation processing (S16). In the data generation process, the CPU 2 executes a process for generating plot data. As shown in FIG. 5, the CPU 2 specifies the type of the pen 45 attached to the attachment unit 32 (S31). In S 31, the CPU 2 receives an input of information related to the type of the pen 45 mounted on the mounting unit 32 from the user, and specifies the type of the pen 45 based on the input information. The information regarding the type of the pen 45 in this example is a numerical value represented by an integer of 1 to 4 shown in the pen type storage area 742 of FIG. The type of the pen 45 may be specified by other methods such as automatically specifying based on information acquired by wireless communication from an RF tag in which ID information given to the pen 45 is embedded.

CPU 2 sets a first predetermined amount L1 based on the type of pen 45 specified in S31 (S32). The first predetermined amount L1 is an interval between the pattern drawing line specified in the process of S14 and the offset region. The CPU 2 in this example refers to the pen type storage area 742 and sets the interval corresponding to the pen type specified in S31 as the first predetermined amount L1. For example, when the type of the pen 45 is 1, the CPU 2 sets R1 as the first predetermined amount L1. CPU2 specifies the outline of the pattern 64 processed into the to-be-processed object 20 (S33). The outline of the pattern 64 may be specified using a known technique. The CPU 2 in this example specifies the contour of the pattern based on the pattern data specified in S14 and the pattern arrangement set in S15. In the specific example, as shown in the state 201 in FIG. 6, the

contours

82 and 83 are specified for each of the

patterns

62 and 63.

The CPU 2 divides the area surrounded by the

contours

82 and 83 specified in S33 into a plurality of divided areas (S34). In the first direction (Y direction), the CPU 2 in this example has a distance L7 between a position where the roller 40 contacts the workpiece 20 and a position where the pen 45 mounted on the mounting portion 32 contacts the workpiece 20. The region surrounded by the

contours

82 and 83 is divided into a plurality of divided regions at an interval L5 smaller than (see FIG. 5). In the specific example, as shown in the state 202, the region surrounded by the contour 82 is divided into two divided regions by a dividing line segment 84 extending in the second direction orthogonal to the first direction. The dividing line segment 84 is set at a position of an interval L5 from the front end of the contour 82. The distance from the dividing line segment 84 to the rear end of the contour 82 is equal to or less than the interval L5. A region surrounded by the contour 83 is divided into two divided regions by a dividing line segment 85. The dividing line segment 85 is set at a position of an interval L5 from the front end of the contour 83. The distance from the dividing line segment 85 to the rear end of the contour 83 is equal to or less than the interval L5. The divided areas are set in this way because the drawing area on the workpiece 20 drawn with the liquid adhesive 44 does not contact the roller 40, and the plotter 1 draws the pattern on the workpiece 20 with the pen 45. It is to do. When the pinch roller 13 in front of the roller 40 is in contact with the workpiece 20, the interval L5 is a position where the pinch roller 13 is in contact with the workpiece 20, and the pen 45 mounted on the mounting portion 32 is the workpiece. You may make it smaller than the distance between the places which touch 20. The base point for setting the dividing line segment 84 is not only the front end of the contour of the pattern (partial pattern) in the first direction as in this example, but also the contour of the pattern or the end portion of the workpiece 20 in the first direction. The position may be set arbitrarily by the user.

CPU 2 sets a drawing line representing the contour specified in S33 for each divided region set in S34 (S35). In S35, the CPU 2 sets the drawing position of the drawing line and the writing order (start point, end point). The CPU 2 in this example sets the starting point of the drawing line in the contour inner direction with respect to the contour specified in S33. The contour inner direction is a direction toward the inner portion of the closed region surrounded by the contour. For example, in the pattern 62, the contour inner direction is a direction from the contour 82 toward the center of the circle represented by the pattern 62. In the pattern 63, the contour inner direction is a direction from the contour 83 toward the intersection of the diagonal lines of the rectangle represented by the pattern 63. Although not shown, when the pattern is a donut-shaped pattern having two circles as an outline, the side toward the region sandwiched between the two circles is the outline inner direction. The contour outer direction is a direction opposite to the contour inner direction, and is a direction from the inner portion of the closed region surrounded by the contour toward the outer side of the contour. The drawing line is represented by, for example, a line drawn with a single stroke. The CPU 2 of this example changes the drawing line setting method according to the thickness of the contour represented by the drawing line. The thickness of the contour may be set by the user, or may be automatically set according to the type of the liquid adhesive, the shape of the pattern, and the like.

When the thickness of the contour represented by the drawing line is the same as the thickness L8 of the line segment LS drawn by the pen 45 (hereinafter referred to as the first condition), the CPU 2 sets the drawing line as a single line. Then, the starting point of the drawing line is set in the contour inner direction with respect to the contour specified in S33. In the specific example, as shown in the state 203, the CPU 2

sets drawing lines

86 and 87 for each divided region with respect to the outline 82 of the pattern 62. The drawing lines 86 and 87 are set on the contour 82. The drawing lines 86 and 87 are set on the inner side of the outline 82 by the thickness of the line (first predetermined amount L1) in consideration of the thickness of one line drawn by the pen 45 mounted on the mounting unit 32. May be. For the outline 83 of the pattern 63, drawing

lines

88 and 89 are set for each divided region. In the drawing line 86, the portion indicated by the arrow A11 from the start point P31 is arranged in the contour inner direction of the portion along the contour 82 indicated by the arrow A12. The line segment LS1 is juxtaposed in the contour inner direction with respect to a part of the line segment group along the contour 82 indicated by the arrow A12 such as the line segment LS2. That is, the drawing line 86 includes a plurality of line segments (for example, the line segment LS1 and the line segment LS2) arranged in parallel along the contour 82 in the contour inner direction. The part indicated by the arrow A11 is set immediately after the drawing is started, because the thickness of the line drawn by the pen 45 is not stable, so that the outline can be drawn in a state where the drawing can be performed with a stable line thickness. This is to make a simple drawing line. The position of the starting point P31 is set at a distance within the first predetermined amount L1 from the contour 82, and the part indicated by the arrow A11 should not overlap with an offset area described later. The start point P31 may be set on the contour 82, the portion indicated by the arrow A11 may pass through the contour 82, and the portions indicated by the arrow A11 and the arrow A12 may overlap.

When the thickness of the contour represented by the drawing line is made larger than the thickness L8 of the line segment LS drawn by the pen 45 (hereinafter referred to as the second condition), the CPU 2 makes the drawing line along the contour. The line includes a plurality of line segments arranged in parallel in the contour inner direction. That is, the CPU 2 represents the contour by a plurality of line segments extending in parallel along the contour in the contour inner direction. One line segment group includes one or more line segments. When one line segment group includes a plurality of line segments, the plurality of line segments included in one line segment group are continuous. The CPU 2 in this example connects a plurality of line segment groups with line segments extending in the outline inner direction to form one drawing line. When the outline of each divided area is annular, a spiral drawing line is set. When the contour for each divided region is linear, a drawing line folded at the end of the contour is set. The CPU 2 determines the number of line segments included in the drawing line and arranged in parallel along the contour in the contour inner direction according to the thickness of the contour represented by the drawing line. The CPU 2 separates a plurality of adjacent line segment groups arranged in parallel along the contour by a predetermined amount L3. The predetermined amount L3 in this example is the same as the first predetermined amount L1 set in S32. The predetermined amount L3 may be different from the first predetermined amount L1 set in S32, and may be a second predetermined amount L2 described later, for example.

In the specific example, the number of line segments arranged in parallel along the contour is 2. As shown in state 213, drawing

lines

186 and 187 are set for each divided region with respect to the contour 82 of the pattern 62. For the outline 83 of the pattern 63, drawing

lines

188 and 189 are set for each divided region. The CPU 2 sets a start point P1 at the base end of the arrow A13 and sets an end point P2 at the tip of the arrow A14. The line segment group indicated by the arrow A 14 is set on the outline 82 of the pattern 62. The line segment group indicated by the arrow A13 is set from the contour 82 to the predetermined amount L3, the contour inner side direction. The front end side of the contour 82 is represented by a double line-shaped drawing line 186 including a line segment group indicated by an arrow A13 and two line segment groups indicated by an arrow A14. The starting point P1 of the drawing line 186 is set inside the line segment group indicated by the arrow A14 on the contour 82. Similarly, a start point P3 and an end point P4 are set for the drawing line 187, a start point P5 and an end point P6 are set for the drawing line 188, and a start point P7 and an end point P8 are set for the drawing line 189. The CPU 2 may represent the contour by a plurality of spaced lines extending along the contour. For example, when the contour 82 fits in one divided region, the drawing line may be two circular lines representing the contour 82. In this case, the CPU 2 sets the drawing order of the lines arranged in the outline inner direction among the plurality of lines ahead of the drawing order of the lines arranged in the outline outer direction.

CPU2 makes the area | region which offset the 1st predetermined amount L1 set by S32 from the outline specified by the process of S33 to the outline inner side direction as an offset area | region (S36). In this example, the first predetermined amount L1 is smaller than a second predetermined amount L2 described later. More specifically, the first predetermined amount L1 is a half value of the second predetermined amount L2. In this example, the first predetermined amount L1 and the predetermined amount L3 are the same value. In the case of the first condition, the CPU 2 sets the area offset by the first predetermined amount L1 from the contour specified in S33 as the offset area. In the specific example, as shown in the state 204, offset

regions

90 and 81 are set for the

contours

82 and 83, respectively. In the case of the second condition, the CPU 2 sets, as an offset region, a region that is offset by a first predetermined amount L1 from the portion in the outline inner direction in the drawing line. As shown in state 214, offset

regions

190 and 191 are set for each of the

contours

82 and 83. The offset region 190 is set not to the contour 82 but to a region offset from the line segment group indicated by the arrow A13 included in the drawing line 186 in the contour inner direction by the first predetermined amount L1.

CPU 2 sets a solid line in the offset area set in S36 (S37). The fill line is a line for filling the offset region offset by the first predetermined amount L1 from the contour toward the inside of the contour with the pen 45. The CPU 2 sets a fill line for each divided area. In S37, the CPU 2 sets the drawing position and the writing order (start point, end point) of the filled line. The filled line in this example is a line including a plurality of line segments parallel to each other at intervals of a second predetermined amount L2 different from the first predetermined amount L1. The interval between the plurality of line segments may be an interval in a direction perpendicular to the plurality of line segments, or may be an interval in a predetermined direction such as the first direction and the second direction. As described above, the second predetermined amount L2 is larger than the first predetermined amount L1, and is a value twice the first predetermined amount L1 in this example. The filled line is a line including a plurality of parallel line segments extending in the first direction or the second direction, for example. In a specific example, as shown in the state 205, for the pattern 62, for each divided region, meandering solid lines 70 connecting a plurality of parallel line segments extending in the first direction at intervals of the second predetermined amount L2, 93 is set. With respect to the pattern 63, meandering filled

lines

94 and 95 connecting a plurality of parallel line segments extending in the first direction at intervals of the second predetermined amount L2 are set for each divided region. The second predetermined amount L2 may be the same as the first predetermined amount L1.

The filled line may be, for example, a line including a plurality of parallel line segments inclined at a predetermined angle with respect to the first direction. The predetermined angle is preferably an angle that is not the same as the angle of the side of the pattern. The predetermined angle may be set in advance, specified by the user, or automatically set according to the shape of the pattern or the like. More specifically, the predetermined angle specifies a plurality of line segments having a predetermined length or more included in the drawing line of the pattern specified in S33, and an angle inclined with respect to each of the plurality of line segments included in the pattern is It may be set. In this way, the plotter 1 can make the coating unevenness less noticeable even when the pattern is a figure having a side longer than a predetermined length such as a rhombus. The predetermined angle in this example is 5 degrees clockwise with respect to the first direction. In this case, in a specific example, as shown in the state 215, the pattern 62 is connected to a plurality of parallel line segments that are inclined at a predetermined angle clockwise from the first direction at intervals of the second predetermined amount L2 for each divided region.

Serpentine lines

192 and 193 are set. For the pattern 63, meandering

lines

194 and 195 connecting a plurality of parallel line segments inclined by a predetermined angle clockwise from the first direction at intervals of the second predetermined amount L2 are set for each divided region.

The CPU 2 sets the drawing order of the drawing lines set for each divided area and the filled lines (S38). The CPU 2 sets the drawing order of the drawing lines before the drawing order of the filled lines. The CPU 2 in this example sets the drawing order for each of the plurality of divided regions in order from the downstream side in the first direction, and sets the drawing line and the filled line for each of the plurality of divided regions. In the first direction, the downstream side in this example is the side from the roller 40 toward the mounting portion 32 and the front side. In the specific example, in the case of the first condition, the CPU 2 performs the drawing line 86, the filled line 70, the drawn line 87, the filled line 93, the drawn line 88, the filled line 94, the drawn line 89, and the filled line 95 in order from the first drawing order. Set. In the case of the second condition, as shown in FIG. 7, the CPU 2 has the drawing line 186, the filled line 192, the drawn line 187, the filled line 193, the drawn line 188, the filled line 194, the drawn line 189, and the filled line in order from the first drawing order. Set to 195.

The CPU 2 generates plot data (first data) indicating the drawing position of the drawing line and the filled line on the workpiece 20 (S39). The CPU 2 in this example sets a drawing line and a fill line for each of the generated divided areas, and draws the drawing line and the fill line on the workpiece 20 according to the drawing order set in S38. Generate plot data to indicate As illustrated in FIG. 5, in the case of the first condition, the CPU 2 generates the plot data D1 of FIG. The plot data D1 includes drawing line data, fill line data, and an end code D4. Each drawing line data and fill line data includes coordinate data, a start code, and a stop code. The coordinate data includes an instruction for driving the Y moving mechanism 7 and the X moving mechanism 8 to relatively move the workpiece 20 and the mounting portion 32 to the position indicated by the coordinate data. The coordinate data is represented by coordinates in the XY coordinate system, and indicates the position on the workpiece 20 of the end points of a plurality of continuous line segments included in the drawing line or the filled line. For example, in the drawing line data D2 for the drawing line 86, the start point P31 shown in the state 203 of FIG. 6, the end point P32 of the line segment LS1 extending from the start point P31, and the end point P33 of the line segment LS2 extending from the end point P32 are continuous. The coordinates of the end points of the plurality of line segments are indicated by the coordinate data. In the drawing line data D2, the starting point P31 of the drawing line 86 is set in the contour inner direction with respect to the contour 82 specified in S33. The fill line data D3 for the fill line 70 includes the start point P41 shown in the state 205 of FIG. 6, the end point P42 of the line segment LS3 extending from the start point P41 in the first direction, and the end point P43 of the line segment LS4 extending from the end point P42 in the second direction. As described above, the coordinates of the end points of a plurality of continuous line segments are indicated by the coordinate data. The start code includes an instruction to drive the Z moving mechanism 33 and move the mounting portion 32 from the raised position to the lowered position. The stop code includes an instruction to drive the Z moving mechanism 33 to move the mounting portion 32 from the lowered position to the raised position. The end code D4 includes an instruction to end the drawing process. In the case of the second condition, the CPU 2 similarly generates plot data. The CPU 2 ends the data generation process as described above, and returns the process to the drawing control process of FIG.

The CPU 2 acquires information on the remaining amount of the liquid adhesive 44 of the pen 45 mounted on the mounting unit 32 via the cartridge 4 (S17). The CPU 2 acquires information regarding the remaining amount input via the touch panel 53. The information regarding the remaining amount of the liquid adhesive 44 may be information indicating the remaining amount of the liquid adhesive 44, and in this example, is the numerical value of the scale 49 of the pen 45. The user visually recognizes the remaining amount of the liquid adhesive 44 from the window portion 48 of the pen 45 and inputs a numerical value of a scale 49 corresponding to the remaining amount of the liquid adhesive 44 to the plotter 1 by panel operation. CPU2 acquires the numerical value which the user input as information regarding remaining amount. The CPU 2 of this example acquires any one of the input numerical values 1 to 4 as information regarding the remaining amount of the liquid adhesive 44. In the specific example, 1 is acquired as information regarding the remaining amount of the liquid adhesive 44. The information regarding the remaining amount of the liquid adhesive 44 may be, for example, the weight of the pen 45 or a signal of a sensor (for example, a distance sensor) that detects the remaining amount of the liquid adhesive 44. The information regarding the remaining amount of the liquid adhesive 44 is information obtained by subtracting a value corresponding to the distance of the drawn line since the unused pen 45 is attached and the unused pen 45 is attached. May be.

The CPU 2 sets the relative moving speed of the mounting portion 32 and the workpiece 20 by the Y moving mechanism 7 and the X moving mechanism 8 based on the information regarding the remaining amount of the liquid adhesive 44 acquired in S17 ( S18). The CPU 2 sets the movement speed slower as the remaining amount of the liquid material indicated by the acquired remaining amount information is smaller than when the remaining amount is larger. The CPU 2 in this example refers to the flash memory 74 and sets a movement speed corresponding to information indicating the remaining amount acquired in the process of S17. The moving speed may be set for each of the Y moving mechanism 7 and the X moving mechanism 8, or may be set for a combined speed by the Y moving mechanism 7 and the X moving mechanism 8. In a specific example, the CPU 2 performs the X movement mechanism 8 and the Y movement based on the numerical value 1 of the scale 49 that is information regarding the remaining amount of the liquid adhesive 44 acquired in S17 and the correspondence stored in the speed data storage area 741. The moving speed of the mounting portion 32 by the mechanism 7 is set to the speed V1 (S18). The CPU 2 sets a threshold value based on the information regarding the remaining amount of the liquid adhesive 44 acquired in S17 and the correspondence stored in the speed data storage area 741 (S19). The threshold value is used in a process of changing the relative moving speed between the mounting portion 32 and the workpiece 20 according to the distance of the line drawn by the liquid material. The distance of the line drawn by the liquid is specified based on the length of the line drawn by the pen 45, the weight of the pen 45, the time when the drawing process was executed by the pen 45, and the like. In the specific example, a threshold value Q1 corresponding to the numerical value 1 of the scale 49 is set.

CPU 2 determines whether or not a drawing start instruction has been acquired (S20). The drawing start instruction is an instruction to start drawing processing, and is input by a user through a panel operation. The drawing process is a process of drawing a pattern on the workpiece 20 with the pen 45 mounted on the mounting unit 32 via the cartridge 4. When the drawing start instruction is not acquired (S20: NO), the CPU 2 waits until the drawing start instruction is input.

When the drawing start instruction is acquired (S20: YES), the CPU 2 starts a drawing process for drawing the pattern specified in S14 on the workpiece 20 with the pen 45 (S21). The CPU 2 controls the Y moving mechanism 7, the X moving mechanism 8, and the Z moving mechanism 33 based on the plot data generated in S 39, relatively moves the mounting portion 32 and the workpiece 20, and mounts the mounting portion 32. A drawing line and a filled line are drawn on the workpiece 20 with the pen 45 attached to the workpiece. The CPU 2 controls the Y moving mechanism 7, the X moving mechanism 8, and the Z moving mechanism 33 based on the plot data generated in the process of S 39 and the moving speed set by the process of S 18, and the workpiece The pattern is drawn on the work piece 20 by moving the mounting portion 32 relative to 20 at the moving speed set in the process of S18.

Specifically, the CPU 2 drives the Y moving mechanism 7 and the X moving mechanism 8 based on the plot data generated in S39 of FIG. 5, and the start position of the contour of the divided area arranged at the foremost side is the pen position. The workpiece 20 is moved to a position that becomes the lower end of 45. The CPU 2 drives the Z moving mechanism 33 to move the mounting portion 32 to a lowered position close to the workpiece 20 so that the pen tip portion 47 of the pen 45 mounted on the mounting portion 32 is brought into contact with the workpiece 20. . The CPU 2 drives the X moving mechanism 8 and the Y moving mechanism 7 according to the plot data generated in S39, and moves the mounting portion 32 relative to the workpiece 20 at the speed set in S18. The moving speed of the mounting portion 32 reaches the speed set in S18 through acceleration after the start of movement. When the line segment drawn by the pen 45 is relatively short, the speed is reduced to draw the next line segment without reaching the moving speed V1. For this reason, the relative moving speed between the mounting portion 32 and the workpiece 20 is not always the moving speed V1. The pen 45 draws with the pen 45 at a position above the drawing line and the fill line of the workpiece 20. CPU2 adds the movement distance of the mounting part 32 with respect to the workpiece 20, and specifies the distance of the line drawn on the workpiece 20 (S22). The initial value of the movement distance is zero. The CPU 2 adds the distance of the already drawn line segment to the movement distance every time S22 is executed.

CPU 2 determines whether or not the distance acquired in S22 is greater than the threshold set in the process of S19 or S26 (S23). If the distance is not greater than the threshold (S23: NO), the CPU 2 determines whether or not to end the drawing process based on the plot data (S27). The CPU 2 determines to end the drawing process when the end code included in the plot data is read. When the drawing process is not terminated (S27: NO), the CPU 2 returns the process to S22. In S23, when the distance is larger than the threshold value (S23: YES), the CPU 2 determines whether the relative position between the workpiece 20 and the mounting portion 32 is the start point of any line segment (S24). . As described above, the plot data of this example includes coordinate data for drawing a plurality of continuous line segments. When the distance specified in S22 reaches a predetermined amount, the CPU 2 in this example has the drawing speed at the moving speed reset by the speed setting means from the start point of the next line segment in the plurality of line segments. The mounting portion is moved relative to the workpiece 20.

When the relative position between the workpiece 20 and the mounting portion 32 is not at the start point of the line segment (S24: NO), the CPU 2 returns the process to S22. When the relative position between the workpiece 20 and the mounting portion 32 is at the start point of the line segment (S24: YES), the CPU 2 sets the mounting portion 32 with respect to the workpiece 20 set in S18 or S25 executed last time. The moving speed is changed (S25). The process of S25 is a process of resetting the moving speed according to the distance of the drawn line between the start and the end of drawing according to the plot data. When the distance specified in S22 exceeds the threshold, the CPU 2 resets a movement speed that is slower than the movement speed that is being set. When the moving speed is reset, the CPU 2 drives each of the Y moving mechanism 7 and the X moving mechanism 8 at the reset moving speed, and relatively moves the workpiece 20 and the mounting portion 32. Then, a pattern is drawn on the workpiece 20. Specifically, the CPU 2 moves the mounting portion 32 with respect to the workpiece 20 at the moving speed changed in S25. In the specific example, when the distance reaches the threshold value Q1, the CPU 2 sets the moving speed to V2, which is the next faster than V1, and each of the first direction and the second direction of the workpiece 20 and the mounting portion 32 is set. The relative moving speed is V2. The CPU 2 changes the threshold value set in S19 or the previously executed S26 from Q1 to Q2. The CPU 2 sets the distance added in S22 to 0 and resets it (S26). CPU2 returns the process to S22.

When the CPU 2 acquires the end code (S27: YES), the CPU 2 ends the drawing process (S28). Specifically, the CPU 2 drives the X moving mechanism 8 in a state where the Z moving mechanism 33 is driven based on the stop code to move the mounting portion 32 in a direction (upward) away from the workpiece 20. The mounting part 32 is moved to the initial position. The CPU 2 drives the Y moving mechanism 7 to discharge the workpiece 20 forward. The CPU 2 ends the drawing control process as described above.

After the drawing control processing by the plotter 1 is completed, the user executes the above-described arrangement process (S3). After the drawing area drawn on the workpiece 20 becomes colorless and transparent, the user sequentially arranges the foil sheet 65 and the protective sheet on the workpiece 20 so as to cover the drawing area on the workpiece 20. The user places the workpiece 20 on which the foil sheet 65 is placed on the platen 3 of the plotter 1, removes the pen 45 attached to the attachment portion 32, attaches the pressing member 35, and then performs a pressure control process by panel operation. Enter the start instruction to start. In the press control process, after the drawing process is executed, the CPU 2 controls the Y moving mechanism 7, the X moving mechanism 8, and the Z moving mechanism 33 so that the pressing area including the drawing area is attached to the mounting portion 32. A pressing process of pressing from the foil sheet 65 arranged on the workpiece 20 by the member 35 is executed. When the CPU 2 receives the start instruction, the CPU 2 executes the press control process shown in FIG. 8 based on the program stored in the ROM 72.

As shown in FIG. 8, in the pressing control process, the CPU 2 specifies the type of the pressing member 35 to be mounted on the mounting portion 32 (S41). The process of S41 may be appropriately executed by the same process as the process of S31. CPU2 of this example specifies the kind of pressing member 35 based on the numerical value designated by the user. CPU2 sets the space | interval of the several line segment which a press line contains based on the type of the press member 35 specified by the process of S41, and the correspondence of the type and space | interval memorize | stored in the press member type storage area 743. (S42). When the numerical value representing the type of the pressing member 35 is 1, the CPU 2 sets U1 as the interval.

CPU2 specifies the drawing area on the workpiece 20 on which the pattern is drawn by the adhesive (S43). The CPU 2 of this example specifies a drawing area based on the pattern arrangement specified in S14 and set in S15. When the drawing area is visible, the CPU 2 may specify the drawing area based on the image data generated by scanning the workpiece 20. The CPU 2 may specify the drawing area based on data acquired from an external device such as the USB memory 60. The CPU 2 specifies the outline of the drawing area specified in S43 (S44). The CPU 2 specifies the contour of the drawing area based on the pattern arrangement set in S15. In the specific example, as shown in the state 231 of FIG. 9, the outline 282 is specified for the pattern 62 of the pattern 64, and the outline 283 is specified for the pattern 63. The CPU 2 may specify, as the outline of the drawing area, a line that is offset from the area indicated by the plot data generated in S39 in the outline outward direction by the thickness of the line drawn by the pen 45. The offset amount in S43 in that case may be, for example, the first predetermined amount L1. The CPU 2 may specify the contour of the pattern indicated by the plot data generated in S39 and used for the rendering control process as the contour of the rendering area.

CPU2 sets the press area | region containing a drawing area | region based on the outline specified by S44 (S45). The pressing area is an area where the workpiece 20 on which the foil sheet 65 is disposed is pressed from above the foil sheet 65 by the pressing member 35 mounted on the mounting portion 32. The method for setting the pressing area may be appropriately determined in consideration of the configuration of the Y moving mechanism 7 and the X moving mechanism 8, the shape of the pressing member 35, and the like. For example, the CPU 2 may set a rectangular area including the drawing area as the pressing area. The rectangular area including the drawing area may be a minimum rectangle including the drawing area. The CPU 2 sets the extension phrase of two sides of the four sides of the outline of the rectangular area as the first direction, and sets the extension direction of the remaining two sides as the second direction. In this case (hereinafter referred to as the case of the third condition), as shown in a state 232, a pressing region 234 that includes the contour 282 and a pressing region 235 that is surrounded by the contour 283 are set. The CPU 2 may set a rectangular area obtained by offsetting a minimum rectangle including the drawing area by a predetermined amount toward the outside of the minimum rectangle as the pressing area. In this case (hereinafter referred to as the fourth condition), in a specific example, as shown in the state 242, a rectangular area 284 containing the outline 282 is offset by a predetermined amount toward the outside of the rectangular area 284, and the outline A pressing region 245 is set by offsetting 283 by a predetermined amount in the contour outward direction. The CPU 2 may set an offset area obtained by offsetting the drawing area by a predetermined amount toward the outside of the drawing area as the pressing area. In this case (hereinafter referred to as the case of the fifth condition), as shown in the state 252, in the specific example, the pressing region 254 obtained by offsetting the contour 282 by a predetermined amount in the outer contour direction as the pressing region, and the contour 283 in the outer contour direction. A pressing area 255 with a fixed amount of offset is set. The offset amount in the case of the fourth condition and the case of the fifth condition may be determined in advance, may be set by the user, or automatically according to the type of the pressing member 35, the shape of the pattern, etc. May be set. The offset amount in this example is set to a value larger than the interval set in S42, and specifically, a value that is 1.5 times the interval set in S42 is set.

CPU2 determines whether or not a plurality of pressing areas are set in S45 (S46). In each of the

states

232, 242, and 252, a plurality of pressing areas are set (S46: YES). In this case, the CPU 2 determines whether or not there are pressing areas having overlapping portions among the plurality of pressing areas (S47). When the plurality of drawing areas are specified by the processing of S46 and S47, the CPU 2 determines whether or not there are overlapping portions in the pressing areas set in each of the plurality of drawing areas. In the

states

242 and 252, there is a pressing area having an overlapping portion (S47: YES). In this case, the CPU 2 integrates the pressing areas having overlapping portions into one pressing area, and resets the pressing area (S48). As illustrated in the state 246, the pressing area 244 and the pressing area 245 are integrated into one pressing area 247. As illustrated in the state 256, the pressing area 254 and the pressing area 255 are integrated into one pressing area 257.

When a plurality of pressing areas are not set (S46: NO), when there is no pressing area having an overlapping portion as shown in the state 232 (S47: NO), or after the process of S48, the CPU 2 mounts the mounting portion 32. Plot data (second data) instructing to press the pressing area including the drawing area specified in S43 is generated by the pressing member 35 attached to (S49). The plot data instructing to press the pressing area may be appropriately set according to the type of the pressing member 35, the size of the pressing area, and the like. The CPU 2 of this example moves the pressing member 35 along a pressing line including a plurality of parallel line segments with an interval corresponding to the type of the pressing member 35 specified in the process of S42 and presses the pressing area. Generate data. The CPU 2 generates plot data for a plurality of pressing areas determined to have overlapping portions in S47 as a single pressing area, and the pressing areas determined to have no overlapping portions. Generates plot data for each of one or more pressed areas.

The CPU 2 in this example generates plot data instructing to press the contour of the drawing area after pressing the pressing area. The CPU 2 in this example moves the pressing member 35 attached to the attachment part 32 to the workpiece 20 while reciprocating the pressing member 35 attached to the attachment part 32 in the first direction. Plot data instructing to move in the second direction intersecting with one direction and sequentially press from one end to the other end in the second direction of the pressing area is generated. When there are a plurality of pressing areas, the one end to the other end in the second direction of the pressing area may be different for each pressing area or the same.

CPU2 generates plot data (second data) by the following procedure, for example. The CPU 2 arranges a plurality of line segments extending in parallel with the first direction at intervals set in S42 in the pressing area. CPU2 sets the some line extended in a 1st direction for every press area at the space | interval set by S42. For example, when the type of the pressing member 35 is 1, the CPU 2 sets a plurality of lines extending in the first direction at the interval U1. For each of a plurality of set lines, the CPU 2 sets a line segment extending in the first direction from an intersection point closest to the one end in the first direction and an intersection point closest to the other end in the first direction. The end point of Of the plurality of line segments, ends of adjacent line segments are appropriately connected, and one pressing line is set for each pressing area. In the specific example, in the case of the third condition, as shown in the state 236, a pressing line 237 including a start point P11 and an end point P12 is set for the pressing region 234. A pressing line 238 including a start point P13 and an end point P14 is set for the pressing region 235.

In the case of the fourth condition, as shown in the state 249, a pressing line 248 including a start point P15 and an end point P16 is set for the pressing region 247. In the case of the fifth condition, as shown in the state 259, a pressing line 258 including a start point P17 and an end point P18 is set for the pressing region 257. The CPU 2 generates plot data for pressing the workpiece 20 from above the foil sheet 65 with the pressing member 35 along the pressing line from the set start point to the end point. In the case of the third condition, the plot data D5 generated in S49 is generated as illustrated in FIG. The plot data D5 includes area pressing line data, contour pressing line data, and an end code. The area pressing line data is data indicating the position of the pressing line set in the pressing area. The contour pressing line data is data indicating the position of the pressing line for pressing the contour. As indicated by the area press line data D6, the contour press line data and the contour press line data include coordinate data, a start code, and a stop code, as with the drawing line data and the fill line data. For example, in the area press line data D6 for the press line 237, a plurality of continuous points such as the start point P11, the end point P55 of the line segment extending from the start point P11, and the end point P56 of the line segment extending from the end point P55 shown in the state 236 of FIG. The coordinates of the end points of the line segment are indicated by the coordinate data. The method for setting the pressing line may be changed as appropriate.

CPU 2 determines whether or not an instruction to start the pressing process has been input (S50). An instruction to start the pressing process is input by a panel operation. When the instruction is not input (S50: NO), the CPU 2 stands by until the instruction is input. When the instruction is input (S50: YES), the CPU 2 executes a pressing process based on the plot data generated in the process of S49 (S51). In accordance with the plot data, the CPU 2 moves the pressing member 35 attached to the attachment portion 32 relative to the workpiece 20 while reciprocating the pressing member 35 attached to the attachment portion 32 relative to the workpiece 20 in the first direction. It moves to the 2nd direction which cross | intersects a 1st direction, and it presses in order toward the other end from the one end in the 2nd direction of a press area | region. The CPU 2 in this example moves the pressing member 35 and the workpiece 20 relatively according to the area pressing line data in the plot data and causes the pressing member 35 to press the pressing area, and then the contour in the plot data. The outline of the drawing area is pressed according to the pressing line data. After the pressing process ends, the CPU 2 ends the pressing control process.

The drawing control process of the second embodiment will be described with reference to FIG. In the drawing control process of the second embodiment shown in FIG. 10, the same reference numerals are given to the same processes as the drawing control process of FIG. 4, and the description will be simplified or omitted. As shown in FIG. 10, in the drawing control process of the second embodiment, S61 is executed between S19 and S20, S62 and S63 are executed instead of S22 to S26, and S28 is executed. Is different from the drawing control process of the first embodiment in that S64 is executed after the process. In S61, the CPU 2 specifies a change line segment. A change line segment among a plurality of line segments included in the drawing line and the fill line is a line segment that changes a relative moving speed between the workpiece 20 and the mounting portion 32 during the drawing process. The CPU 2 sequentially reads the data included in the plot data generated in S39, and specifies the line segment where the distance of the line segment drawn by the liquid adhesive 44 accommodated in the pen 45 reaches the threshold as the change line segment. More specifically, the CPU 2 calculates the distance in the same manner as in S22 by adding the lengths of the drawn line segments in order of the drawing order based on the coordinates of the end points of the line segments indicated by the plot data, for example. Identifies the line segment that reaches the threshold set in the process of S19. When the CPU 2 specifies the change line segment, the threshold value is changed and the distance is reset by the same process as S26. The CPU 2 repeats the above process until the end code of the plot data is acquired.

In the process of S62, it is determined whether or not the line segment to be drawn is the changed component set in S61 (S62). If it is not a changed line segment (S62: NO), the CPU 2 executes the process of S27. When it is a change line segment (S62: YES), the CPU 2 changes the relative movement speed between the workpiece 20 and the mounting portion 32 to a value corresponding to the remaining amount of the liquid adhesive 44 accommodated in the pen 45. (S63). For example, when the current speed is the speed V1 in FIG. 2, the CPU 2 sets the next highest speed V2 after the speed V1 in the process of S63. The CPU 2 executes the process of S62 after the process of S63. In S27, when it is not an end code (S27: NO), the CPU 2 returns the process to S62. In S64, the CPU 2 causes the LCD 51 to display an instruction for urging to change the pen 45 mounted on the mounting unit 32 to the pressing member 35 (S64). For example, the CPU 2 displays the screen 98 of FIG. The LCD 51 includes an illustration 96, a message 97, and an OK key 99. The illustration 96 and the message 97 are contents that prompt the user to change the pen 45 attached to the attachment portion 32 to the pressing member 35 and to arrange the foil sheet 65 and the protective sheet on the workpiece 20. The OK key 99 is a key for instructing the start of the press control process. When the OK key 99 is selected, the CPU 2 activates a press control process similar to that in the first embodiment.

In the plotter 1 of the first and second embodiments, the mounting portion 32 and the Z moving mechanism 33 are examples of the mounting portion and the first moving mechanism of the present invention. The Y moving mechanism 7 and the X moving mechanism 8 are examples of the second moving mechanism of the present invention. The CPU 2 is an example of a control unit of the present invention. The LCD 51 is an example of notification means of the present invention. The CPU 2 that executes the process of S14 is an example of the pattern specifying means of the present invention. The CPU 2 that executes the processes from S21 to S28 is an example of a drawing unit of the present invention. The CPU 2 that executes the process of S43 is an example of the area specifying means of the present invention. CPU2 which performs the process of S51 is an example of the press means of this invention. The CPU 2 that executes the process of S15 is an example of an arrangement setting unit of the present invention. The CPU 2 that executes the process of S39 is an example of a first generation unit of the present invention. The CPU 2 that executes the process of S33 is an example of the contour specifying means of the present invention. The CPU 2 that executes the process of S17 is an example of a remaining amount acquisition unit of the present invention. The CPU 2 that executes the process of S18 is an example of a speed setting unit of the present invention. The CPU 2 that executes the process of S34 is an example of a dividing unit of the present invention. The CPU 2 that executes the process of S49 is an example of a second generation unit of the present invention. The CPU 2 that executes the process of S41 is an example of the type specifying means of the present invention. The CPU 2 that executes the process of S64 is an example of the notification control means of the present invention. The process of S2 is an example of the drawing process of the present invention. The process of S3 is an example with the arrangement | positioning process of this invention. The process of S4 is an example of the pressing process of the present invention. The process of S5 is an example of the removal process of the present invention.

The plotter 1 according to the first and second embodiments can automatically perform both the drawing process and the pressing process. The user places the foil sheet 65 on the pattern drawn on the workpiece 20 with the liquid adhesive 44 by the plotter 1, presses the pressing area with the plotter 1, and then peels off the foil sheet 65, thereby the workpiece. 20 can be subjected to a foil pressing process representing a desired pattern. Since the plotter 1 affixes the foil to the workpiece 20 by pressing the drawing area drawn with the adhesive on the workpiece 20 from the top of the foil sheet 65, the foil push processing can be performed with a simple configuration. . When the pen 45 containing ink is attached to the attachment portion 32, the plotter 1 can draw on the workpiece 20 with ink. When foil pressing is performed without using the configuration for heating, a method of attaching a foil sheet cut into a pattern with a cutting device or the like to the workpiece 20 can be considered. In this method, the foil sheet cut into a pattern having a relatively thin portion loses its shape, sticks to another part, or the foil sheet is torn off, so that the user has cut into a pattern. The operation of attaching the foil sheet to the workpiece 20 is complicated. The plotter 1 of the first and second embodiments automatically performs both the drawing process and the pressing process, and a pattern having a relatively fine portion can be attached to the workpiece 20. In a state where the foil sheet 65 is placed on the drawing area, the user cannot visually recognize the drawing area. For this reason, when the user manually presses the foil sheet 65 disposed on the workpiece 20 and pastes the foil onto the workpiece 20, pressing unevenness may occur, and the finish of the foil pressing process may be impaired. is there. On the other hand, since the plotter 1 specifies the drawing area, the drawing area can be appropriately pressed from the top of the foil sheet 65 according to the plot data.

CPU2 sets the arrangement on the workpiece 20 of the pattern specified in the process of S14 (S15). The CPU 2 controls the Y moving mechanism 7, the X moving mechanism 8, and the Z moving mechanism 33 in accordance with the pattern arrangement set in S15, and executes the drawing process. The CPU 2 controls the Y moving mechanism 7, the X moving mechanism 8, and the Z moving mechanism 33 in accordance with the pattern arrangement set in S15, and executes the pressing process. The plotter 1 can perform foil pressing on the workpiece 20 in the arrangement set in S15. Since the plotter 1 executes both the drawing process and the pressing process in accordance with the pattern arrangement set in S15, the process can be simplified, and the process on the workpiece 20 on which the pattern is drawn with the liquid adhesive 44 is performed. The drawing area can be more reliably pressed by the pressing member 35.

The CPU 2 generates plot data instructing to draw the pattern of the arrangement set in S15 with the pen 45 attached to the attachment unit 32 (S39). The CPU 2 controls the Y moving mechanism 7, the X moving mechanism 8, and the Z moving mechanism 33 according to the generated first data, and executes a drawing process. The plotter 1 can control the Y moving mechanism 7, the X moving mechanism 8, and the Z moving mechanism 33 according to the plot data.

CPU2 specifies the contour of the pattern specified in S14 (S33). The CPU 2 draws on the workpiece 20 a drawing line representing the outline and a fill line that is a line for filling the offset area offset from the outline (drawing line) by the first predetermined amount in the inner direction of the outline with the pen 45. Plot data indicating the position is generated. The plotter 1 can efficiently fill the inside of the contour with the liquid adhesive 44. Since the drawing can be performed with a drawing line representing the contour of the pattern, the contour of the pattern can be beautifully drawn with the pen 45 as compared with the case where the contour is represented without using the drawing line.

CPU 2 acquires information related to the remaining amount of the liquid adhesive 44 of the pen 45 (S17). The CPU 2 sets a relative moving speed between the workpiece 20 and the mounting portion 32 by the Y moving mechanism 7 and the X moving mechanism 8 based on the acquired information regarding the remaining amount. The CPU 2 controls the Y moving mechanism 7, the X moving mechanism 8, and the Z moving mechanism 33 based on the plot data generated in S38 and the moving speed set in S18, and the moving speed set in S18. Then, the workpiece 20 and the mounting portion 32 are relatively moved to execute the drawing process. The plotter 1 can set the moving speed of the mounting portion 32 relative to the workpiece 20 in consideration of the remaining amount of the liquid adhesive 44 accommodated in the pen 45 mounted on the mounting portion 32. The plotter 1 appropriately sets the relative moving speed between the workpiece 20 and the mounting portion 32 in accordance with the remaining amount of the liquid adhesive 44 accommodated in the pen 45, whereby the liquid adhesive accommodated in the pen 45. The possibility that the thickness of the line drawn on the workpiece 20 becomes non-uniform according to the remaining amount of 44 can be reduced.

When the plotter 1 relatively moves the workpiece 20 and the mounting portion 32 at the same moving speed and draws a pattern on the workpiece 20 with the pen 45 mounted on the mounting portion 32, the pen 45 accommodates. As the remaining amount of the liquid adhesive 44 is smaller, the line tends to be thinner than when the remaining amount is large. On the other hand, the CPU 2 sets the movement speed slower as the remaining amount of the liquid adhesive 44 indicated by the information regarding the remaining amount acquired in S17 is smaller than when the remaining amount is larger. Therefore, the plotter 1 can appropriately set the relative moving speed between the workpiece 20 and the mounting portion 32 in accordance with the remaining amount of the liquid adhesive 44 accommodated in the pen.

CPU2 divides the pattern specified in S14 into a plurality of divided areas (S34). The CPU 2 sets a drawing line and a filled line for each of the plurality of divided areas generated in the process of S34 (S35, S37), and generates plot data (S39). The plotter 1 divides the pattern and generates the first data for each divided region, so that the pattern can be efficiently drawn with the liquid adhesive 44 for each divided region.

In foil stamping, the more beautiful the shape of the contour, the higher the finished quality. On the other hand, the CPU 2 generates plot data (first data) instructing the drawing position of the drawing line including a plurality of line segments arranged in parallel to the contour inner side along the contour (S39). Therefore, the plotter 1 is surely drawn with the liquid adhesive 44 on the contour portion of the pattern, compared with the case where the drawing line is a single line. The appearance can be beautifully finished.

The CPU 2 sets a rectangular area including the drawing area specified in S43 as a pressing area. Based on the generated plot data, the CPU 2 controls the Y moving mechanism 7, the X moving mechanism 8, and the Z moving mechanism 33 to execute the pressing process. The plotter 1 can press the drawing area efficiently.

The CPU 2 moves the workpiece 20 and the pressing member 35 mounted on the mounting portion 32 in a first direction while relatively reciprocating the workpiece 20 and the pressing member 35 mounted on the mounting portion 32 in the first direction. Plot data that is moved in the second direction intersecting with one direction in order and pressed in order from one end to the other end in the second direction of the pressing area is generated. The plotter 1 can efficiently press the pressing area based on the generated plot data. The plotter 1 can push out the air that has entered between the workpiece 20 and the foil sheet 65 in order from one end side to the outside, and can adhere the patterned foil more reliably on the workpiece 20.

CPU 2 identifies the type of pressing member 35 attached to the attachment part 32 (S41). The CPU 2 presses the pressing region by relatively moving the mounting portion 32 and the pressing member along a pressing line including a plurality of parallel line segments spaced in accordance with the type of the pressing member 35 specified in S41. Generate plot data. The plotter 1 can efficiently press the pressing area with the pressing member 35 in consideration of the type of the pressing member 35.

In the drawing control process of the second embodiment shown in FIG. 10, after the drawing process is completed, the CPU 2 notifies the LCD 51 of an instruction for urging to change the pen 45 attached to the attachment unit 32 to the pressing member 35 (S64). ). The plotter 1 can prompt the user to change the pen 45 mounted on the mounting unit 32 to the pressing member 35 after the drawing process is completed. The user can mount the pressing member 35 on the mounting portion 32 at an appropriate timing according to the notified instruction. The plotter 1 has a possibility that the pressing process by the plotter 1 is started in a state where the pen 45 is mounted on the mounting portion 32 and a foil sheet 65 (protective sheet as necessary) is not disposed on the workpiece 20. Can be reduced.

In the foil stamping method, a pattern can be stamped onto the workpiece 20 by performing a drawing process, an arrangement process, and a pressing process. The user can perform foil pressing on the workpiece 20 without using a heating device. The foil pressing method includes a removing step (S5) of peeling the foil sheet 65 from the workpiece 20 after the pressing step (S4) and removing the foil pieces adhering to other than the drawing area of the workpiece 20. The foil stamping method can enhance the finish of the foil stamping process by removing the foil pieces adhering outside the drawing area. In the foil stamping method, at least one of the drawing process and the pressing process is executed using the plotter 1. In the foil stamping method, at least one of the drawing process and the pressing process can be performed using the plotter 1, which saves the user's trouble.

The plotter and the foil stamping method of the present invention are not limited to the above-described embodiments, and various modifications may be made without departing from the gist of the present invention. For example, the following modifications (A) and (B) may be added as appropriate.

(A) The configuration of the plotter 1 may be changed as appropriate. The plotter 1 may not include a scanner unit, a display unit, and an operation unit. The plotter 1 may be capable of executing processes other than drawing and pressing (for example, cutting and sewing of a workpiece). The plotter 1 may be capable of mounting the pen 45 without using the cartridge 4. The cartridge in which the pen 45 can be mounted and the cartridge in which the pressing member 35 can be mounted may be different. The mounting unit 32 need not be capable of mounting a plurality of types of pens 45. The mounting portion 32 need not be capable of mounting a plurality of types of pressing members 35. The rear end portion of the pen 45 opposite to the pen tip portion 47 may be used as a pressing member. The plotter 1 may automatically switch between the pen 45 attached to the attachment unit 32 and the pressing member 35. The display unit may be a display device other than the LCD. The configurations of the Y moving mechanism 7 and the X moving mechanism 8 may be changed as appropriate. For example, the plotter 1 may have a moving mechanism that fixes the position of the mounting portion 32 and can move the workpiece 20 on an XY plane that intersects the Z direction, and fixes the position of the workpiece 20. The mounting unit 32 may have a moving mechanism that can move on the XY plane intersecting the Z direction. The work piece 20 need not be in the form of a sheet.

(B) Each step of the drawing control process and the press control process is not limited to the example executed by the CPU 2, and a part or all of the steps may be executed by another electronic device (for example, ASIC). Each step of the above process may be distributedly processed by a plurality of electronic devices (for example, a plurality of CPUs). The steps of the drawing control process and the press control process of the above embodiment can be changed in order, omitted or added as necessary. In some cases, an operating system (OS) or the like operating on the plotter 1 performs part or all of the actual processing based on a command from the CPU 2 of the plotter 1, and the functions of the above embodiments are realized by the processing. Included within the scope of this disclosure. For example, the following changes (B-1) to (B-7) may be appropriately added to the steps of the foil stamping method, the drawing control process, and the press control process.

(B-1) At least one of the drawing process and the pressing process need not be executed according to the plot data generated by the CPU 2. For example, at least one of the drawing process and the pressing process may be executed according to plot data acquired from a storage device such as the USB memory 60.

(B-2) The CPU 2 does not have to set the pattern arrangement (S15). For example, the CPU 2 may set the pattern arrangement according to a preset rule such that the center of the workpiece 20 and the center of the pattern are matched. The CPU 2 does not need to execute the drawing process according to the pattern arrangement set in S15. The CPU 2 does not have to execute the pressing process according to the pattern arrangement set in S15.

(B-3) The CPU 2 does not need to set the relative moving speed between the workpiece 20 and the mounting portion 32 based on the information regarding the remaining amount of the liquid adhesive 44 of the pen 45. That is, the processes of S17 and S18 may be omitted as appropriate. The CPU 2 decreases the relative moving speed of the workpiece 20 and the mounting portion 32 as the remaining amount of the liquid adhesive 44 indicated by the information regarding the remaining amount of the liquid adhesive 44 is smaller than when the remaining amount is larger. It is not necessary to set.

(B-4) The CPU 2 does not need to divide the pattern identified in S14 into a plurality of divided areas and set a drawing line and a filled line for each of the generated divided areas. When the CPU 2 divides the pattern identified in S14 into a plurality of divided regions, the division method may be set as appropriate. For example, the pattern may be divided based on the distance drawn with the pen 45. The CPU 2 may divide only one of the drawing line and the filled line. The CPU 2 may generate first data indicating a drawing position of a drawing line whose starting point of the drawing line, such as a line-like shape or a circular drawing line, is not arranged in the contour inward direction from the contour.

(B-5) The pressing area may be an area including a drawing area. The pressing area may be an area having a predetermined shape such as a circle, an ellipse, or a polygon including the drawing area, or may be the entire area where the workpiece 20 is extended. In the process of S49, it is not necessary to generate plot data instructing to press the contour of the drawing area after pressing the pressing area. CPU2 may set the some press line which has a part which mutually overlaps about the some press area with an overlapping part. The method for setting the pressing line may be changed as appropriate. The CPU 2 does not have to include a plurality of line segments parallel to each other at intervals according to the type of the pressing member 35. In the case of including a plurality of parallel line segments with an interval corresponding to the type of the pressing member 35, the extending direction of the plurality of line segments may be appropriately changed. The setting method of the start point and the end point of the pressing line may be changed as appropriate. For example, the CPU 2 may set the starting point of the pressing line at the center of the pressing area and set the pressing line in a spiral shape. When the pressing line is set in a spiral shape, the end point of the pressing line is preferably set near the contour of the pressing area. When the end point is set near the center of the pressing area, the air accumulated between the foil sheet 65 and the workpiece 20 is not well discharged to the outside and accumulates between the foil sheet 65 and the workpiece 20. This is not preferable.

(B-6) The CPU 2 may set the same interval regardless of the type of the pressing member 35 attached to the attachment part 32 in the process of S42. The method for setting the pressing line may be changed as appropriate. The first data and the second data may be the same. The CPU 2 may omit the process of S64 as appropriate. When the plotter 1 includes a speaker, the CPU 2 may notify an instruction for urging the user to change the pen 45 attached to the attachment unit 32 to the pressing member 35 in S64. When the plotter 1 includes an LED, an instruction for urging to change the pen 45 mounted on the mounting unit 32 to the pressing member 35 may be notified by turning on or blinking the LED.

(B-7) In the foil stamping method, at least one of the drawing process and the pressing process need not be performed by the plotter 1. For example, the user may perform at least one of the drawing process and the pressing process manually. The removal step may be changed or omitted as necessary.

1: Plotter, 2: CPU, 4: Cartridge, 7: Y moving mechanism, 8: X moving mechanism, 20: Work piece, 32: Mounting part, 33: Z moving mechanism, 35: Press member, 45: Pen, 51: LCD, 72: ROM, 73: RAM, 74: Flash memory

Claims

A mounting part capable of mounting a pen containing a liquid adhesive and a pressing member for pressing a workpiece;
A first moving mechanism that is movable in a moving direction that relatively approaches and separates the mounting portion and the workpiece;
A second movement mechanism capable of relatively moving the mounting portion and the workpiece in a direction intersecting the movement direction by the first movement mechanism;
A control unit,
The controller is
A pattern specifying means for specifying a pattern to be processed into the workpiece;
Drawing means for executing drawing processing for drawing the pattern specified by the pattern specifying means on the workpiece with the pen;
Area specifying means for specifying a drawing area in which the pattern is drawn with the liquid adhesive on the workpiece;
After the drawing process is executed by the drawing unit, the first moving mechanism and the second moving mechanism are controlled, and a pressing area including the drawing area specified by the area specifying unit is set in the mounting portion. A plotter that functions as a pressing unit that executes a pressing process of pressing from a foil sheet disposed on the workpiece by the mounted pressing member.
The controller is
It further functions as an arrangement setting means for setting the arrangement of the pattern specified by the pattern specifying means on the workpiece,
The drawing means controls the first moving mechanism and the second moving mechanism according to the arrangement of the pattern set by the arrangement setting means, and executes the drawing process,
The pressing means executes the pressing process by controlling the first moving mechanism and the second moving mechanism according to the arrangement of the pattern set by the arrangement setting means. The plotter according to 1.
The controller is
Further functioning as first generation means for generating first data which is plot data instructing to draw the pattern of the arrangement set by the arrangement setting means with the pen attached to the attachment portion;
The drawing means executes the drawing process by controlling the first moving mechanism and the second moving mechanism according to the first data generated by the first generating means. The plotter according to 2.
The controller is
It further functions as contour specifying means for specifying the contour of the pattern specified by the pattern specifying means,
The first generation means includes the drawing line representing the outline and a work line that is a fill line that is a line for filling the offset area offset from the outline by a first predetermined amount in the inner direction of the outline with the pen. The plotter according to claim 3, wherein the first data indicating the upper drawing position is generated.
The controller is
Remaining amount acquisition means for acquiring information on the remaining amount of the liquid adhesive of the pen;
Based on the information on the remaining amount acquired by the remaining amount acquiring means, further functions as a speed setting means for setting a relative moving speed between the workpiece and the mounting portion by the second moving mechanism, The drawing means controls the first moving mechanism and the second moving mechanism based on the first data generated by the first generating means and the moving speed set by the speed setting means. 5. The plotter according to claim 3, wherein the drawing process is executed by relatively moving the workpiece and the mounting portion at the moving speed.
The speed setting means sets the moving speed slower as the remaining amount of the liquid adhesive indicated by the information related to the remaining amount acquired by the remaining amount acquiring means is smaller than when the remaining amount is larger. The plotter according to claim 5.
The controller is
Further functions as a dividing unit that divides the pattern specified by the pattern specifying unit into a plurality of divided regions;
The said 1st production | generation means sets the said drawing line and the said filling line for every said some division area produced | generated by the said division | segmentation means, The said 1st data is produced | generated. The plotter described.
The said 1st production | generation means produces | generates said 1st data which instruct | indicates the drawing position of the said drawing line containing the several line segment paralleled in the said inner side direction along the said outline. 7. The plotter according to 7.
The controller is
A rectangular area including the drawing area specified by the area specifying means is set as the pressing area, and second data is generated which is plot data pressed by the pressing member mounted on the mounting portion. It further functions as a generation means,
The pressing means executes the pressing process by controlling the first moving mechanism and the second moving mechanism based on the second data generated by the second generating means. Item 9. The plotter according to any one of Items 1 to 8.
The second generating means moves the workpiece and the pressing member mounted on the mounting portion relatively reciprocally in a first direction, while the pressing mounted on the workpiece and the mounting portion. The member is moved relatively in a second direction intersecting the first direction, and the second data is generated by sequentially pressing from one end to the other end in the second direction of the pressing region. The plotter according to claim 9.
The controller is
It further functions as a type specifying means for specifying the type of the pressing member mounted on the mounting unit,
The second generation means moves the pressing member along a pressing line including a plurality of parallel line segments with an interval corresponding to the type of the pressing member specified by the type specifying means, thereby moving the pressing area. The plotter according to claim 9 or 10, wherein the second data to be pressed is generated.
It further comprises notification means for notifying various instructions,
The controller is
The apparatus further functions as a notification control unit that notifies the notification unit of an instruction to change the pen mounted on the mounting unit to the pressing member after the drawing process is completed. The plotter according to any one of 11.
A foil pressing method for applying a foil pressing process to a workpiece,
A drawing process for drawing a pattern for forming a foil pressing process on the workpiece using a pen containing a liquid adhesive;
An arrangement step of arranging a foil sheet on the workpiece on which the pattern is drawn with the liquid adhesive;
A foil pressing method comprising: a pressing step of pressing, with a pressing member, a drawing area on which the pattern is drawn with the liquid adhesive on the workpiece on which the foil sheet is disposed.
14. The method according to claim 13, further comprising a removing step of peeling off the foil sheet from the workpiece after the pressing step and removing a piece of foil attached to a portion other than the drawing region of the workpiece. Foil stamping method.
At least one of the drawing step and the pressing step, a mounting portion capable of mounting the pen containing the liquid adhesive and the pressing member that presses the workpiece, the mounting portion, and the workpiece A first movement mechanism capable of moving in a moving direction that relatively moves toward and away from the object, and relatively moves the mounting portion and the workpiece in a direction that intersects the moving direction by the first movement mechanism. It implements using the plotter provided with the control part which controls the possible 2nd moving mechanism and said 1st moving mechanism and said 2nd moving mechanism, The foil stamping method of Claim 13 or 14 characterized by the above-mentioned. .