JP3716636B2 - Embroidery data processing device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention belongs to the technical field of an embroidery data processing apparatus capable of displaying an embroidery pattern to be sewn on a work cloth together with a partial pattern obtained by dividing the embroidery pattern for each thread color.
[0002]
[Prior art]
  Conventionally, an embroidery sewing machine capable of sewing a large number of embroidery patterns on a work cloth has been widely used. A specific type of embroidery pattern can be selected from a large number of embroidery patterns prepared in advance, and embroidery sewing machines that display on the display means for visually recognizing these embroidery patterns are becoming widespread.
[0003]
  In general, such an embroidery sewing machine can read an embroidery data such as display data for a large number of embroidery patterns in an internal memory, or can use an external ROM card in which embroidery data is recorded. It is configured as follows. Thus, the user of the embroidery sewing machine has only to obtain an external ROM card storing embroidery data according to his / her preference, and is highly convenient in that the embroidery data can be exchanged with the embroidery sewing machine.
[0004]
  An embroidery sewing machine equipped with a liquid crystal display capable of monochrome display as display means for displaying an embroidery pattern is also provided. Correspondingly, binary data for display on the liquid crystal panel is stored for each embroidery pattern in the external ROM card. Reading binary data from the external ROM card and displaying it on a liquid crystal display helps to select and confirm the embroidery pattern to be sewn and assist the work of the user of the embroidery sewing machine.
[0005]
[Problems to be solved by the invention]
  Recently, there is an increasing demand for colorization of the display means in order to make the display of the embroidery pattern more realistic. Therefore, the liquid crystal display capable of color display is mounted on the embroidery sewing machine. At this time, in order to make the external ROM card color-corresponding, it is necessary to supply the one storing the color display data of the embroidery pattern.
[0006]
  However, when replacing the monochrome display type embroidery sewing machine with a color display compatible embroidery machine, it is costly to immediately replace the external ROM card that does not support color display with a color display compatible one. It is difficult to do so. Further, it is relatively easy to read an external ROM card that does not support color display with an embroidery sewing machine that supports color display and display an embroidery pattern in monochrome, but this does not take advantage of color display.
[0007]
  When converting binary display data into color display data, the binary display data of the partial pattern for each thread color of the embroidery pattern includes the thread color name related to the partial pattern in addition to the display data of the partial pattern itself. And display data about various auxiliary information such as sewing order. The partial pattern itself must be colored according to the thread color, and the various auxiliary information must be colored regardless of the thread color. However, since both data are mixed, conversion to color display data is not possible. It's not easy.
[0008]
  Therefore, the present invention has been made in view of such problems, and even when using embroidery data of a recording medium that does not support color display, the embroidery pattern is identified after identifying the partial pattern and various auxiliary information. An object of the present invention is to provide an embroidery data processing apparatus capable of performing color display processing.
[0009]
[Means for Solving the Problems]
  In order to solve the above problem, the embroidery data processing apparatus according to claim 1 is a partial pattern obtained by dividing an embroidery pattern to be sewn into thread colors.When,Auxiliary information about the patternAnd auxiliary information having at least a thread color identification display for identifying and displaying the thread color;An embroidery data processing apparatus for processing embroidery data including at least binary display data for displayingInOn the other hand, from the binary display data for one partial pattern,Partial pattern binary display data for the one partial pattern excluding the data portion corresponding to the auxiliary informationThread color identification binary display data for identifying and displaying the thread color;Extracting means for extracting,Thread color determination means for determining a thread color corresponding to the thread color identification binary display data based on the thread color identification binary display data extracted by the extraction means;The partial pattern binary display data extracted by the extracting means is used for the partial pattern.Determined by the thread color determining meansAn embroidery pattern color display corresponding to the one embroidery pattern by synthesizing the color display data corresponding to the partial pattern constituting one embroidery pattern with a conversion means for converting into color display data corresponding to the thread color The image processing apparatus includes: synthesis means for generating data; and display processing means for performing display processing on the embroidery pattern color display data generated by the synthesis means.
[0010]
  According to the present invention, in the embroidery data processing device, the partial pattern binary display data for the partial pattern obtained by excluding the data portion corresponding to the auxiliary information from the binary display data in the embroidery data, and the thread color identification included as the auxiliary information The binary display data is read out, and the thread color corresponding to the thread color identification binary display data is determined. Then, the partial pattern binary display data is converted into embroidery pattern color display data corresponding to the thread color. Therefore, even when there is no thread color data corresponding to the partial pattern in the partial pattern binary display data, the thread color corresponding to the thread color identification display can be determined from the thread color identification binary display data of the auxiliary information. The embroidery pattern is displayed with abundant color expression without being restricted by data.
[0011]
  The embroidery data processing device according to claim 2 is the embroidery data processing device according to claim 1,The thread color determining means refers to a thread color binary display data table stored in advance corresponding to a plurality of thread color identification displays, and determines a thread color when the thread color identification displays match.It is characterized by.
[0012]
  According to the present invention, in the embroidery data processing device, the partial pattern binary display data for the partial pattern obtained by excluding the data portion corresponding to the auxiliary information from the binary display data in the embroidery data, and the thread color identification included as the auxiliary information The binary display data is read out, the thread color identification display matches with reference to the thread color binary display data table, and the corresponding thread color is determined. Then, the partial pattern binary display data is converted into embroidery pattern color display data corresponding to the thread color. Therefore, even when there is no thread color data corresponding to the partial pattern in the partial pattern binary display data, the thread color corresponding to the thread color identification display can be determined from the thread color identification binary display data of the auxiliary information. The embroidery pattern is displayed with abundant color expression without being restricted by data.
[0013]
  The embroidery data processing device according to claim 3 is the embroidery data processing device according to claim 1 or 2, wherein the synthesis means displays the color display corresponding to the partial pattern constituting the one embroidery pattern. In the display area where the color display data overlap each other, the embroidery pattern color display data is overwritten with the color display data in which the sewing order precedes the color display data in which the sewing order precedes. It is characterized by generating.
[0014]
  According to this invention, the sewing order is determined for the partial patterns for each thread color, and when the display areas overlap each other, the succeeding sewing order is overwritten one after another. Therefore, an embroidery pattern display suitable for actual sewing is performed using a simple process.
[0015]
  The embroidery data processing device according to claim 4 further comprises a reading means for reading the embroidery data recorded on an external recording medium in the embroidery data processing device according to any one of claims 1 to 3. It is characterized by.
[0016]
  According to this invention, the embroidery data recorded on the external recording medium is read and used for display processing. Therefore, data exchange and the like are easily performed, and a desired embroidery pattern can be easily selected by visually recognizing a large number of embroidery patterns.
[0017]
  The embroidery data processing device according to claim 5 is the embroidery data processing device according to claim 4, wherein the external recording medium is detachable from the embroidery data processing device or a peripheral device connected to the embroidery data processing device, or The recording medium is connectable to the embroidery data processing apparatus via a network.
[0018]
  According to the present invention, the embroidery data is read from the embroidery data processing device itself, a recording medium attached to and detached from the peripheral device, or a recording medium connected to the network, and displayed. Therefore, there are various data acquisition routes, and variations of available embroidery patterns can be increased.
[0019]
  The embroidery data processing device according to claim 6 is the embroidery data processing device according to any one of claims 1 to 5.,PreviousThe partial pattern binary display data is bitmap data, and the conversion means converts the binary pixel data into multi-value pixel data corresponding to the thread color for each display pixel.
[0020]
  According to this invention, binary display data that is bitmap data is converted for each pixel to obtain multi-value pixel data corresponding to the thread color. Therefore, conversion from binary display data to multi-value display data can be easily performed by a simple process.
[0021]
  The embroidery data processing device according to claim 7 is the embroidery data processing device according to claim 6, wherein the extraction unit is configured to output the partial pattern binary according to cutting coordinate data set in advance for the binary display data. The display data is cut out and extracted.
[0022]
  According to the present invention, the cutting coordinate data is set in advance in the binary display data in the embroidery data, and the partial pattern binary display data is cut out and extracted from the binary display data according to this. Therefore, unnecessary auxiliary information can be excluded from the binary display data with a simple process.
[0023]
  An embroidery data processing apparatus according to an eighth aspect of the present invention is the embroidery data processing apparatus according to any one of the first to seventh aspects, wherein a plurality of screens generated by the synthesizing means are displayed on the display screen of the display processing means. An embroidery pattern selection screen for displaying embroidery pattern color display data side by side and a color display and an embroidery pattern confirmation screen for displaying the embroidery pattern color display data generated by the synthesizing means for the selected one embroidery pattern in color are included. It is characterized by.
[0024]
  According to this invention, a plurality of embroidery pattern display data are arranged on the screen and displayed in color as an embroidery pattern selection screen, and the embroidery pattern display data for one selected embroidery pattern is displayed in color as an embroidery pattern confirmation screen. Is done. Therefore, the user can easily select a desired embroidery pattern, and can visually check the sewing procedure and thread color of the embroidery pattern.
[0025]
  The embroidery data processing device according to claim 9 is the embroidery data processing device according to claim 8, wherein the color corresponding to the partial pattern constituting one selected embroidery pattern is displayed on the embroidery pattern confirmation screen. Display data and the auxiliary information regarding the partial pattern are further displayed.
[0026]
  According to the present invention, the color display data and the auxiliary information related to the partial pattern are displayed on the embroidery pattern confirmation screen corresponding to the partial pattern of the selected embroidery pattern. Therefore, useful information such as the thread color name can be visually grasped for each portion of the embroidery pattern.
[0027]
  The embroidery data processing device according to claim 10 is the embroidery data processing device according to claim 9, wherein the auxiliary information displayed on the embroidery pattern confirmation screen includes at least a thread color identification display for the partial pattern. It is characterized by that.
[0028]
  According to this invention, the thread color identification display is displayed on the embroidery pattern confirmation screen as auxiliary information regarding the partial pattern. Therefore, the thread color used for sewing can be clearly recognized for each partial pattern of the embroidery pattern.
[0029]
  The embroidery data processing device according to claim 11 is the embroidery data processing device according to claim 9 or 10, wherein the auxiliary information displayed on the embroidery pattern confirmation screen includes at least a sewing order for the partial patterns. Is displayed.
[0030]
  According to this invention, the display indicating the sewing order is displayed on the embroidery pattern confirmation screen as auxiliary information regarding the partial pattern. Therefore, it is possible to easily grasp the sewing order for each partial pattern of the embroidery pattern.
[0031]
  The embroidery data processing device according to claim 12 is the embroidery data processing device according to any one of claims 9 to 11, wherein the auxiliary information displayed on the embroidery pattern confirmation screen includes at least the partial pattern. A display showing the sewing time is included.
[0032]
  According to this invention, the display indicating the sewing time is displayed on the embroidery pattern confirmation screen as the auxiliary information related to the partial pattern. Therefore, the time required for sewing can be clearly recognized for each partial pattern of the embroidery pattern.
[0033]
  The embroidery data processing device according to claim 13 is the embroidery data processing device according to any one of claims 9 to 12, wherein the auxiliary information displayed on the embroidery pattern confirmation screen is the selected embroidery data. All the partial patterns constituting the pattern are displayed in the same color.
[0034]
  According to the present invention, the auxiliary information related to the partial pattern for the selected embroidery pattern is all displayed in the same color on the embroidery pattern confirmation screen. Therefore, the partial pattern and the auxiliary information can be clearly distinguished on the embroidery pattern confirmation screen.
[0035]
  An embroidery data processing apparatus according to a fourteenth aspect is the embroidery data processing apparatus according to the thirteenth aspect, wherein the auxiliary information is displayed in one of white and black.
[0036]
  According to the present invention, the auxiliary information related to the partial pattern for the selected embroidery pattern is all displayed on the embroidery pattern confirmation screen in one of white or black. Therefore, on the embroidery pattern confirmation screen, the auxiliary information is displayed in an easy-to-see manner, and the partial pattern and the auxiliary information can be clearly distinguished.
[0037]
  The embroidery data processing device according to claim 15 is the embroidery data processing device according to any one of claims 1 to 14, wherein the display processing means includes a liquid crystal display device capable of color display. It is characterized by that.
[0038]
  According to the present invention, the embroidery data processing device is equipped with a liquid crystal display device capable of color display, on which an embroidery pattern is displayed. Therefore, an embroidery data processing apparatus that can display an embroidery pattern with good image quality and is suitable for downsizing and low power consumption is provided.
[0039]
DETAILED DESCRIPTION OF THE INVENTION
  DESCRIPTION OF EXEMPLARY EMBODIMENTS Hereinafter, preferred embodiments of the invention will be described with reference to the drawings. In the following description, the present invention is applied to an external ROM card as a recording medium in which embroidery data is recorded, and an embroidery sewing machine that reads the external ROM card and performs embroidery pattern display processing and sewing processing. Will be described. The embroidery machine functions as an embroidery data processing device that performs color display processing of the embroidery pattern, and also functions as a sewing device that performs sewing processing of the embroidery pattern.
[0040]
  FIG. 1 is a view showing an appearance of an embroidery sewing machine according to the present embodiment. As shown in FIG. 1, an embroidery sewing machine according to the present embodiment includes a sewing needle 1 that actually sews a work cloth, an embroidery frame 2 that holds the work cloth when sewing the work cloth to form an embroidery, A carriage 3 is provided for moving the work cloth freely in the horizontal direction or the vertical direction along with the sewing. Instead of the carriage 3, the work cloth may be moved using a feed dog.
[0041]
  On the side of the body 4 of the embroidery machine, a power switch 5 for turning on / off the embroidery machine and a card slot 6 in which an external ROM card 10 on which embroidery data is recorded can be attached and detached are provided. On the other hand, on the front side of the body 4 is an LCD (Liquid Crystal Display) panel 7 that is a display means capable of color display and also serves as a touch panel, a start / stop button 8 that is pressed at the start or end of sewing, and a sewing needle. There is provided a needle up / down button 9 which is pressed when manually moving 1 up and down.
[0042]
  FIG. 2 is a block diagram showing a hardware configuration of the embroidery sewing machine according to the present embodiment. As shown in FIG. 2, the embroidery sewing machine according to the present embodiment is executed by the CPU 11 that comprehensively controls the entire operation, the RAM 12 that temporarily holds data necessary for processing in the CPU 11, and the CPU 11. A ROM 13 for storing a control program and various fixed data is provided.
[0043]
  A detection signal when the start / stop button 8 is pressed and a detection signal when the needle up / down button 9 is pressed are input to the CPU 11 via an interface (not shown). Further, a detection signal corresponding to a key pressed by the user on the touch panel 7a integrated with the LCD panel 7 is input. The touch panel 7a is configured by arranging transparent electrodes vertically and horizontally so that the position touched by the user can be detected. Further, detection signals corresponding to various keys 14 not shown in FIG. 1 are input. Furthermore, the embroidery sewing machine according to the present embodiment is connected to an external ROM card 10 inserted in the card slot 6 and has an interface (not shown). The read embroidery data is input to the CPU 11 via the.
[0044]
  The CPU 11 controls the operation by sending control signals to the main motor 15, the X direction pulse motor 16, and the Y direction pulse motor 17 via an interface (not shown). The main motor 15 drives the sewing needle 1 through a drive mechanism (not shown) to perform a sewing operation. The X direction pulse motor 16 and the Y direction pulse motor 17 move the embroidery frame 2 in the horizontal direction (X axis) according to the XY coordinate data. ) Or a predetermined amount of movement in the vertical direction (Y-axis).
[0045]
  Further, the CPU 11 performs display control for the LCD panel 7. Various screens for the user of the embroidery sewing machine to visually recognize are displayed on the LCD panel 7 in color. For example, there are an embroidery pattern selection screen that displays a plurality of embroidery patterns side by side, an embroidery pattern confirmation screen that shows the sewing procedure of the selected embroidery pattern, and the like.
[0046]
  FIG. 3 is a diagram showing a data structure of the external ROM card 10 compatible with monochrome display read by the embroidery sewing machine according to the present embodiment. In the present embodiment, embroidery data including data relating to thread colors for N embroidery patterns, display data corresponding to monochrome display, sewing data, and the like is recorded in the external ROM card 10 according to a predetermined format. It should be noted that individual embroidery patterns are denoted by numbers such as embroidery patterns 1 to N.
[0047]
  As shown in FIG. 3, the external ROM card 10 has areas in the order of a header area 10a, a color number data area 10b, a thread color code area 10c, a binary display data area 10d, and a sewing data area 10e from the top. It is divided.
[0048]
  The header area 10a mainly corresponds to an address information recording area in which address information of each subsequent area is recorded. The header area 10a starts from a predetermined address. The color number header indicating the head address of the color number data area 10b, the thread color code header indicating the head address of the thread color code area 10c, and the head of the binary display data area 10d. A binary display data header indicating the address and a sewing data header indicating the head address of the sewing data area 10e are recorded in this order. In the header area 10a, the head address of the data portion for each of the embroidery patterns 1 to N included in the binary display data area 10d is sequentially recorded for each embroidery pattern.
[0049]
  In the color number data area 10b, color number data indicating the number of thread colors used for each embroidery pattern is sequentially recorded. That is, since one thread color is used for each sewing procedure, the color number data corresponds to the number of partial patterns to be displayed corresponding to the sewing procedure. Therefore, at the time of actual sewing, a sewing process using the sewing data corresponding to the embroidery pattern is performed for each thread color, and the entire integrated embroidery pattern is completed.
[0050]
  In the thread color code area 10c, thread color codes indicating thread colors to be used for each partial pattern of each embroidery pattern are sequentially recorded. That is, since it is necessary to specify as many thread colors as the thread colors indicated by the color number data in the color number data area 10b, the thread colors are associated with the actual thread colors. In the present embodiment, 64 thread colors can be set, and the thread color code is expressed by 8 bits.
[0051]
  In the binary display data area 10d, binary display data used for monochrome display is sequentially recorded for each embroidery pattern. As described above, there are two types of embroidery patterns to be displayed: an overall pattern integrated by sewing and a partial pattern corresponding to each thread color. Therefore, for the embroidery patterns 1 to N, overall pattern binary display data corresponding to one overall pattern and partial binary display data corresponding to a plurality of partial patterns are recorded. Each of these binary display data is bitmap data in which 1 bit (binary) is assigned to each pixel.
[0052]
  The partial binary display data includes a display data portion of auxiliary information related to the partial pattern in addition to the display data portion corresponding to the partial pattern as described above. For example, there is auxiliary information such as the thread color identification display of the partial pattern, the sewing order, and the sewing time. These are displayed together with the partial pattern, and the user can visually grasp useful information about the partial pattern. Details will be described later.
[0053]
  In the sewing data area 10e, sewing data indicating the movement of the sewing needle 1 when sewing processing is performed on the work cloth for each embroidery pattern is sequentially recorded. In this sewing data, the needle drop position for each stitch of the sewing needle 1 is sequentially described according to the XY coordinates for one thread color, and movement of the carriage 3 can be controlled by reading this. The sewing data includes a code indicating a break for each partial pattern corresponding to the thread color, a code indicating the end of data, and the like.
[0054]
  The external ROM card 10 having the above data structure can be read by inserting it into the card slot 6 of the embroidery sewing machine capable of color display according to the present embodiment. Originally, since the external ROM card 10 is capable of monochrome display, only monochrome display using binary display data can be performed as it is. Therefore, in the present embodiment, as will be described later, for the embroidery pattern to be displayed, the processing described later is performed on the partial binary display data recorded in the binary display data area 10d, and the embroidery pattern is displayed in color. I have decided.
[0055]
  Next, embroidery pattern display processing performed in the embroidery sewing machine according to the present embodiment will be described with reference to FIGS.
[0056]
  FIG. 4 is a flowchart showing the operation of the embroidery sewing machine executed by the CPU 11. As shown in FIG. 4, when processing in the embroidery sewing machine is started, various initial processes are performed in step S1. In this initial processing, prior to performing display processing, sewing processing, and the like, initial settings necessary for the operation of each memory, the LCD panel 7, each motor, and the like are performed.
[0057]
  In step S2, embroidery pattern color display data is generated for a plurality of embroidery patterns that can be selected on the external ROM card 10 and displayed on the LCD panel 7 as an embroidery pattern selection screen. That is, the embroidery pattern to be sewn by the user from a plurality of selectable embroidery patterns is displayed in color in order to select on this screen.
[0058]
  FIG. 5 is a diagram showing a display example of the embroidery pattern selection screen. The embroidery pattern selection screen shown in FIG. 5 shows a screen on which 23 types of embroidery patterns are displayed on one page in total among the embroidery patterns displayed over a plurality of pages. Each of these embroidery patterns is displayed in color corresponding to the thread color of the sewing, and has an image that matches the embroidery pattern that is actually formed on the work cloth.
[0059]
  The embroidery pattern color display data corresponding to the embroidery pattern displayed on the embroidery pattern selection screen shown in FIG. 5 is generated based on the partial binary display data recorded in the binary display data area 10d. A detailed processing method will be described later.
[0060]
  Returning to FIG. 4 again, in step S3, it is determined whether an embroidery pattern has been selected by the user of the embroidery sewing machine. That is, in FIG. 5, the user selects a desired embroidery pattern by touching the touch panel 7a integrated with the LCD panel 7 while looking at the embroidery pattern selection screen, and finally presses a “select” key to confirm the selection. If the displayed page does not have the desired embroidery pattern, the page can be changed by pressing the “previous page” key and the “next page”.
[0061]
  As a result of the determination in step S3, when a specific embroidery pattern is selected (step S3; YES), the process proceeds to step S4, and when it is not selected (step S3; NO), step S3 is repeated. Wait for the embroidery pattern to be selected by the user. In step S4, the embroidery pattern color display data is generated for the embroidery pattern selected in step S3 and displayed on the LCD panel 7 as an embroidery pattern confirmation screen. In other words, this is a display for confirming the embroidery pattern and assisting necessary work when the user sews the selected embroidery pattern.
[0062]
  FIG. 6 is a diagram illustrating a display example of the embroidery pattern confirmation screen. In the embroidery pattern confirmation screen shown in FIG. 6, the selected embroidery pattern is displayed at the upper left, and the partial patterns for each thread color are displayed below it in the sewing order from the left. The upper left embroidery pattern is displayed in color corresponding to all the thread colors to be used, and the partial pattern is displayed in color for each color corresponding to each thread color. In addition, on the embroidery pattern confirmation screen of FIG. 6, various auxiliary information necessary for sewing related to the partial pattern is displayed.
[0063]
  In the example of FIG. 6, the above-described “elephant” embroidery pattern is selected. The embroidery pattern of the entire “elephant” is displayed in multiple colors on the upper left. Each partial pattern includes a partial pattern of the “elephant face part” that is sewn first, a partial pattern of the “elephant hat part” that is sewn next, and a “pattern of the elephant face and hat” that is sewn last. The "outline" partial pattern is displayed.
[0064]
  A number indicating the sewing order is displayed as auxiliary information on the partial pattern. It can be seen that the partial patterns are arranged in order of sewing from the left.
[0065]
  Furthermore, under the partial pattern, a thread color name for identifying the thread color used for each partial pattern is displayed as auxiliary information. The thread color names are Emerald Green, Usmura Saki, Usakamura Saki in order from the left. The color of the three partial patterns on the screen corresponds to a color display that matches the three thread colors.
[0066]
  Returning to FIG. 4 again, in step S5, it is determined whether or not sewing is to be started using the selected embroidery pattern. Actually, since the sewing is started when the user presses the start / stop button 9, the input of the start / stop button 9 may be monitored and judged. As a result of the determination in step S5, when sewing is started (step S5; YES), the process proceeds to step S6, and when sewing is not yet started (step S5; NO), the process proceeds to step S10.
[0067]
  In step S6, driving of the main motor 15 is started based on a control signal from the CPU 11. Next, in step S7, a sewing process for forming the selected embroidery pattern on the work cloth is performed. In this sewing process, the sewing data corresponding to the embroidery pattern is read from the sewing data area 10e of the external ROM card 10, and the movement amount in the X and Y directions of the carriage 3 for each needle drop position is controlled based on this data. .
[0068]
  In step S8, it is determined whether or not there is a sewing process stop request to the CPU 11. For example, when the user presses the start / stop button 9 during the sewing process, a stop request is issued to the CPU 11 and the sewing process ends. As a result of the determination in step S8, if there is a sewing process stop request (step S8; YES), the process proceeds to step S9. If there is no stop request (step S8; NO), the sewing process in step S7 is continued. .
[0069]
  In step S9, the drive of the main motor 15 is stopped based on the control signal from the CPU 11. Thereafter, the process returns to step S5 to wait for the sewing process to be resumed for the selected embroidery pattern, or for other processes to be performed.
[0070]
  On the other hand, when the process proceeds from step S5 to step S10, it is determined whether or not the “return” key at the lower right of the embroidery pattern confirmation screen is pressed. When the “return” key is pressed, the screen displayed before the currently displayed screen is restored, and the embroidery pattern selection screen is displayed again. If the “return” key is pressed as a result of the determination in step S10 (step S10; YES), the process proceeds to step S2 to perform the subsequent embroidery pattern selection screen display processing again, and the “return” key is pressed. If not (step S10; NO), the process proceeds to step S11.
[0071]
  In step S11, it is determined whether any key other than the “return” key is pressed. As a result, if any key is pressed (step S11; YES), processing corresponding to the key is performed in step S12. For example, there are keys such as a “layout” key for setting the layout of the embroidery pattern on the work cloth, and a “help” key for displaying the function description of the embroidery sewing machine. On the other hand, if the result of determination in step S11 is that the key has not been pressed (step S11; NO), step S12 is not executed. When the process of step S11 or step S12 is completed, the process returns to step S5 and waits for the start of the sewing process.
[0072]
  Next, FIG. 7 is a flowchart illustrating in more detail the display processing of the embroidery pattern confirmation screen in step S4. The embroidery pattern display color data generation process and display process described here are performed in the same manner when individual embroidery patterns are displayed on the embroidery pattern selection screen in step S2.
[0073]
  When the process shown in FIG. 7 is started, necessary initial settings are performed in step S21. For example, the selected embroidery pattern is set to start from the first thread color.
[0074]
  In step S22, the corresponding partial binary display data is read from the binary display data area 10d of the external ROM card 10.
[0075]
  In step S23, the partial binary display data read in step S22 is separated into three data and extracted. That is, the partial pattern data corresponding to the original partial pattern displayed on the embroidery pattern confirmation screen of FIG. 6, the thread color name data corresponding to the thread color identification display as auxiliary information, and the sewing order as auxiliary information. There are three pieces of corresponding sewing order data.
[0076]
  In these three data, in the entire region of partial binary display data as bitmap data, the cutting position at the time of separation is uniformly set as coordinate data in advance. That is, there is a positional relationship in which the range from 0 to 0 ≦ Y <Y1 on the Y axis is the sewing order data, the range of Y1 ≦ Y <Y2 is the partial pattern data, and the range of Y2 ≦ Y <Y3 is the thread color name data. These predetermined Y1 and Y2 correspond to the cutting coordinate data, respectively. Thus, it is clear from the display of FIG. 6 that separation in the Y direction is possible. Therefore, if the partial binary display data is separated by the cutting coordinates of Y = Y1 and Y = Y2, the above three data can be extracted.
[0077]
  Next, in step S24, a thread color determination process is performed based on the thread color name data extracted in step S23. For example, a data table storing bit map data corresponding to thread color name data for selectable thread colors is provided in the ROM 13, and the thread color corresponding to the bitmap data in the case of matching is compared with this data. And it is sufficient. In this case, for the same thread color, it is necessary to set the thread color name data part included in the partial binary display data and the data stored in the data table to have the same data contents. is there.
[0078]
  The thread color can be similarly determined by reading the thread color code recorded in the thread color code area 10c of the external ROM data 10 described above. However, in practice, since the thread color code is not always obtained in the set with the display data, the thread color determination process as described above has been described so that the thread color can be determined even in such a case. .
[0079]
  In step S25, the partial pattern data extracted in step S23 is converted into color display data. Specifically, since each pixel data of the partial binary display data is represented by a binary value, this is represented by multi-valued pixel data having predetermined color information corresponding to the thread color determined in step S24. Can be converted to. If all pixels are converted, partial pattern color display data corresponding to the thread color can be obtained. For example, partial pattern data in which 1 bit is assigned to each pixel may be converted into bitmap data in which about 8 bits are assigned to each pixel.
[0080]
  In step S26, the color display data for the partial pattern obtained in step S25, the sewing order data and the thread color name data extracted in step S23 are displayed at a predetermined display position on the embroidery pattern confirmation screen. Specifically, as shown in FIG. 6, the sewing order data, the color display data for the partial pattern, and the thread color name data are displayed in this order from the top. At this time, in a state where only the partial pattern data is colored, the display position is set so as to have the positional relationship before being separated in step S23.
[0081]
  On the embroidery pattern confirmation screen, the display color of the sewing order data and the thread color name data may be set to a specific color set in advance regardless of the thread color. Thereby, since a partial pattern and auxiliary information are easily distinguished, the visibility of a sewing order and a thread color name can be improved. Further, if the display color set in the sewing order data and the thread color name data is set to white or black, it becomes easier to see and the visibility can be further improved.
[0082]
  In step S27, a synthesis process for generating an overall pattern color display is performed from the color display data obtained in step S25 corresponding to the partial pattern. That is, when the embroidery pattern color display data to be displayed on the embroidery pattern confirmation screen is generated, the color display data for the partial patterns are superimposed according to the sewing order.
[0083]
  In step S27, if the specific display area of the subsequent color display data overlaps with the color display data that precedes the processing, it may be overwritten. That is, in the sewing process, when forming an embroidery, it is normal that a thread to be used later overlaps with a thread that has already been sewn. Therefore, if overwriting is performed sequentially in the sewing order in step S27, the thread is formed on the work cloth. Embroidery pattern color display data matching the embroidery is obtained. If the display areas do not overlap, it is not necessary to overwrite.
[0084]
  In step S28, it is determined whether or not the processing in steps S22 to S27 has been completed for all the thread colors of one embroidery pattern. As a result, if the processing has been completed for all the thread colors (step S28; YES), the process ends. If the thread color to be processed still remains (step S28; NO), the process proceeds to step S29. .
[0085]
  In step S29, the thread color to be processed next is set. If processing is currently performed for the i-th thread color for one embroidery pattern, then processing may be performed for the i + 1-th thread color. Thereafter, the process proceeds to step S22, and the processing as described above is continued.
[0086]
  By performing the processing from step S21 to step S29, as shown in FIG. 6, the selected embroidery pattern, the partial pattern for each thread color of the embroidery pattern, and various auxiliary information related to the partial pattern are sequentially displayed. Displayed in color.
[0087]
  In step S23, the case where the cutting coordinate data can be represented by a simple straight line such as Y = Y1 and Y2 has been described. However, data for cutting each data portion with a complicated shape other than a straight line may be used. Also, the case where the cutting coordinate data is set as a fixed value has been described, but the cutting coordinate data can be variably set so that different cutting coordinate data is set according to the type of the embroidery pattern and its partial pattern. It may be.
[0088]
  In the above example, the case where the thread color identification display and the sewing order are displayed as the auxiliary information added to the partial binary display data has been described. However, other auxiliary information is displayed. Also good. For example, the sewing time for each partial pattern may be displayed as auxiliary information.
[0089]
  As described above, according to the embroidery sewing machine according to the present embodiment, the LCD panel 7 capable of color display is mounted, and a large number of embroidery patterns read from the external ROM card 10 capable of monochrome display are partially extracted from the partial binary display data. The pattern data is extracted and converted into color display data, and these are combined to obtain the entire embroidery pattern color display data. Since the embroidery pattern selection screen and the embroidery pattern confirmation screen are displayed in color, the user can select a desired embroidery pattern based on the image of the finished embroidery pattern and perform sewing processing for each thread color. The accompanying work can be performed smoothly. In addition, auxiliary information related to the embroidery pattern can be visually grasped.
[0090]
  On the other hand, when an external ROM card that supports color display is used, the recorded color display data can be read and used for display as it is without performing the above-described processing. However, if the external ROM card 10 capable of monochrome display is made available as in the present embodiment, existing data can be used effectively, which is economical and reasonable, and variations in embroidery patterns also increase.
[0091]
  In the above-described embodiment, the processing when the embroidery pattern is made to correspond to the color display processing has been described. However, in addition to this, the embroidery pattern is made to correspond to the display processing using multi-value data of three or more values. Even if it exists, application of this invention is possible. For example, even when it is desired to perform display including gradation expression having a difference in light and shade corresponding to multi-value display data, except for the difference in the display screen, the same configuration and processing as in the above-described embodiment. The present invention can be applied.
[0092]
  Further, the case where the external ROM card 10 according to the above-described embodiment includes color number data other than display data, thread color code, and sewing data as embroidery data has been described. However, all of these data are not necessarily included in the embroidery data. There is no need to be That is, the color number data can be detected from the code indicating the separation of the sewing data. Further, as described above, even if the thread color code is not included, the thread color can be determined based on the partial binary display data. Further, the sewing data may be generated based on display data of partial patterns of each embroidery pattern.
[0093]
  In the above-described embodiment, the case where the external ROM card 10 is inserted into the card slot 6 of the embroidery sewing machine and the embroidery data is read has been described. However, a dedicated reading device to which the external ROM card 10 can be freely attached and detached is used. The read embroidery data may be transferred to the embroidery data processing device. Alternatively, an embroidery data processing device may be connected to a network to acquire embroidery data via the network. Further, as the external ROM card 10, embroidery data may be recorded on a recording medium such as a computer-readable floppy disk, CD-ROM, or DVD-ROM.
[0094]
  In the above-described embodiment, the case of an embroidery sewing machine that performs both embroidery pattern display processing and sewing processing has been described. However, the present invention is not limited to this, and display processing is mainly performed without performing embroidery pattern sewing processing. The present invention can also be applied to an embroidery data processing device or an embroidery pattern display device. In this case, the displayed embroidery pattern can be sewn on the work cloth by configuring the embroidery data processing device for performing display processing for the embroidery data or the sewing device for performing the sewing processing to the embroidery pattern display device. . For example, software for displaying an embroidery pattern may be activated using a personal computer as an embroidery data processing apparatus.
[0095]
【The invention's effect】
  Claim 1Or 2Since the yarn color is determined based on the portion corresponding to the yarn color identification display of the binary display data of the partial pattern,Even when there is no thread color data corresponding to the partial pattern in the partial pattern binary display data, the thread color corresponding to the thread color identification display can be determined from the thread color identification binary display data of the auxiliary information, and the thread color data The embroidery pattern is displayed with abundant color expression without restriction. Further, the visibility of the embroidery pattern can be enhanced with abundant color expressions without being restricted by the thread color data.
[0096]
[0097]
  According to the third aspect of the present invention, when the partial binary display data is synthesized, the overlapping portions of the display areas are sequentially overwritten in the sewing order, so that it is suitable for actual sewing using simple processing. The displayed embroidery pattern can be displayed.
[0098]
  According to the fourth aspect of the present invention, since the embroidery data recorded on the external recording medium is read and the display process is performed, various data can be supplied and a desired number of embroidery patterns can be visually recognized. An embroidery pattern can be easily selected.
[0099]
  According to the fifth aspect of the present invention, since the embroidery data is read from the recording medium attached to or detached from the embroidery pattern display device itself or the peripheral device, or the recording medium connected to the network and the display process is performed, the data acquisition path Can be varied and can increase the variation of available embroidery patterns.
[0100]
  According to the invention described in claim 6, since the conversion from binary to multivalue is performed for each pixel using the bitmap data, the embroidery pattern can be easily displayed in color using simple processing. Can do.
[0101]
  According to the seventh aspect of the invention, since the partial pattern binary display data is cut out and extracted according to the cutting coordinate data set in advance for the binary display data, the binary display is performed using simple processing. Unnecessary auxiliary information is excluded from the data, and the color display processing of the embroidery pattern can be easily performed.
[0102]
  According to the invention described in claim 8, since the embroidery pattern selection screen in which a plurality of embroidery pattern display data are arranged and the embroidery pattern confirmation screen for displaying the selected embroidery pattern are displayed in color, the user can A desired embroidery pattern can be easily selected, and the sewing procedure and thread color can be visually confirmed.
[0103]
  According to the ninth aspect of the invention, since each partial pattern for the selected embroidery pattern is displayed on the embroidery pattern confirmation screen together with related auxiliary information, useful information in the sewing process is visually displayed. It becomes possible to grasp.
[0104]
  In the invention described in claim 10, since the thread color identification display for the partial pattern is included as the auxiliary information, the thread color used for sewing for each partial pattern can be clearly understood at a glance.
[0105]
  In the invention according to the eleventh aspect, since the display indicating the sewing order of the partial patterns is included as the auxiliary information, it is possible to easily grasp the order of sewing for each partial pattern.
[0106]
  In the invention according to the twelfth aspect, since the display indicating the sewing time for the partial pattern is included as auxiliary information, the time required for sewing can be clearly recognized at a glance for each partial pattern.
[0107]
  According to the thirteenth aspect of the present invention, since the auxiliary information for all the partial patterns constituting one embroidery pattern is displayed in the same color, the partial pattern and the auxiliary information can be clearly distinguished.
[0108]
  In the invention described in claim 14, since the auxiliary information for all the partial patterns constituting one embroidery pattern is displayed in one of white or black, the auxiliary information is easy to see, and clearly the partial pattern. Can be distinguished.
[0109]
  According to the fifteenth aspect of the present invention, since the embroidery pattern is displayed in color using the liquid crystal display device capable of color display, the embroidery pattern can be visually recognized with good image quality, and the size and power consumption can be reduced. A suitable embroidery data processing apparatus can be provided.
[Brief description of the drawings]
FIG. 1 is an external view of an embroidery sewing machine according to an embodiment of the present invention.
FIG. 2 is a block diagram showing a hardware configuration of the embroidery sewing machine according to the embodiment of the present invention.
FIG. 3 is a diagram showing a data structure of an external ROM card in which embroidery data is recorded.
FIG. 4 is a flowchart showing an operation of the embroidery sewing machine according to the embodiment of the present invention.
FIG. 5 is a diagram showing a display example of an embroidery pattern selection screen displayed on the LCD panel.
FIG. 6 is a diagram showing a display example of an embroidery pattern confirmation screen displayed on the LCD panel.
FIG. 7 is a flowchart showing display processing of an embroidery pattern confirmation screen.
[Explanation of symbols]
  1 ... Sewing needle
  2 ... Embroidery frame
  3 Carriage
  4 ... Body
  5 ... Power switch
  6 ... Card slot
  7 ... LCD panel
  7a ... Touch panel
  8 ... Start / Stop button
  9 ... Needle up / down button
  10 ... External ROM card
  10a ... Header area
  10b ... Color number data area
  10c ... thread color code area
  10d ... binary display data area
  10e ... Sewing data area
  11 ... CPU
  12 ... RAM
  13 ... ROM
  14 ... Various keys
  15 ... Main motor
  16 ... X direction pulse motor
  17 ... Y direction pulse motor

Claims (15)

A binary value for displaying a partial pattern obtained by dividing an embroidery pattern to be sewn for each thread color, and auxiliary information related to the partial pattern and having thread color identification display for identifying and displaying at least the thread color. An embroidery data processing device that performs processing on embroidery data including at least display data,
The against the embroidery data from the binary display data for one partial pattern, wherein a partial pattern binary display data to said one partial pattern excluding the data portion corresponding to the auxiliary information, identification of the thread color Extraction means for extracting thread color identification binary display data for
Thread color determination means for determining a thread color corresponding to the thread color identification binary display data based on the thread color identification binary display data extracted by the extraction means;
Conversion means for converting the partial pattern binary display data extracted by the extraction means into color display data corresponding to the thread color determined by the thread color determination means for the partial pattern; and one embroidery pattern Synthesizes the color display data corresponding to the partial patterns constituting the embroidery pattern to generate embroidery pattern color display data corresponding to the one embroidery pattern, and the embroidery pattern color display data generated by the synthesizing means An embroidery data processing apparatus comprising: display processing means for performing display processing. The thread color determining means refers to a thread color binary display data table stored in advance corresponding to a plurality of thread color identification displays, and determines a thread color when the thread color identification displays match. The embroidery data processing apparatus according to claim 1.   The synthesizing unit sequentially synthesizes the color display data corresponding to the partial patterns constituting the one embroidery pattern, and in a display area where the color display data overlap each other, the color display data precedes the sewing order. 3. The embroidery data processing apparatus according to claim 1, wherein the embroidery pattern color display data is generated such that the sewing display order overwrites subsequent color display data.   The embroidery data processing apparatus according to any one of claims 1 to 3, further comprising reading means for reading the embroidery data recorded on an external recording medium.   The external recording medium is a recording medium that can be attached to and detached from the embroidery data processing device or a peripheral device connected to the embroidery data processing device, or can be connected to the embroidery data processing device via a network. The embroidery data processing apparatus according to claim 4. Prior Symbol pattern part binary display data is bit map data, said conversion means, according to claim 1, wherein the conversion of binary pixel data for each display pixel to multilevel pixel data corresponding to the thread color The embroidery data processing apparatus according to claim 5.   7. The embroidery data processing apparatus according to claim 6, wherein the extraction unit cuts out and extracts the partial pattern binary display data according to cutting coordinate data set in advance for the binary display data.   On the display screen of the display processing means, an embroidery pattern selection screen for displaying a plurality of embroidery pattern color display data generated by the synthesizing means side by side and displaying the selected one embroidery pattern is generated by the synthesizing means. 8. The embroidery data processing apparatus according to claim 1, further comprising an embroidery pattern confirmation screen for displaying the embroidery pattern color display data in color.   9. The embroidery pattern confirmation screen further displays the color display data corresponding to the partial pattern constituting one selected embroidery pattern and the auxiliary information related to the partial pattern. The embroidery data processing device described in 1.   10. The embroidery data processing apparatus according to claim 9, wherein the auxiliary information displayed on the embroidery pattern confirmation screen includes a thread color identification display for at least the partial pattern.   The embroidery data processing apparatus according to claim 9 or 10, wherein the auxiliary information displayed on the embroidery pattern confirmation screen includes at least a display indicating a sewing order of the partial patterns.   The embroidery data processing apparatus according to any one of claims 9 to 11, wherein the auxiliary information displayed on the embroidery pattern confirmation screen includes a display indicating at least a sewing time for the partial pattern. .   13. The auxiliary information displayed on the embroidery pattern confirmation screen is displayed in the same color for all the partial patterns constituting one selected embroidery pattern. The embroidery data processing device described.   14. The embroidery data processing apparatus according to claim 13, wherein the auxiliary information is displayed in one of white and black.   The embroidery data processing apparatus according to claim 1, wherein the display processing unit includes a liquid crystal display device capable of color display.

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