JP2013146366A - Embroidery data generating device and embroidery data generating program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an embroidery data generating device for generating embroidery data which can prevent the shape of an embroidery pattern from being deformed by shrinking of stitches after sewing.SOLUTION: When a pattern sewn on a sewing object formed of a specific material includes a first area including at least one long stitch which is a stitch longer than a predetermined length (S9: YES), auxiliary data for at least one auxiliary stitch, which is a stitch intersecting the long stitch, is generated (S10). When the pattern includes a second area which is a closed area enclosed by a line of stitches and having a circularity less than a predetermined value (S11: YES), the second area is divided into a plurality of sub-areas, and auxiliary data for at least one auxiliary stitch, which is arranged on each boundary line between the sub-areas and is connected to the line of stitches at two points at both ends, is generated (S20). From the embroidery data and the auxiliary data for the pattern, embroidery data for the pattern with each auxiliary stitch added thereto is generated (S22).

Description

  The present invention relates to an embroidery data creation apparatus and an embroidery data creation program for creating embroidery data for sewing an embroidery pattern using an embroidery sewing machine.

  After sewing an embroidery pattern on a sewing object made of a material that melts in heat or water, melt and remove the sewing object, leaving only the embroidery thread used for sewing, so-called watermark patterns (for example, lace embroidery) A method of creating is known. For example, in the manufacturing method described in Patent Document 1, a watermark pattern is formed by embroidering a mesh portion on a base fabric that melts in heat or water and then melting the base fabric located on the mesh.

JP 63-2111387 A

  In the method disclosed in Patent Document 1, only the base fabric located on the mesh is melted, and the base fabric remains on the base portion of the embroidery pattern. Therefore, no consideration is given to the possibility of shrinkage of the watermark pattern itself. However, when all the sewing objects corresponding to the base fabric are melted, the stitches of the embroidery pattern may shrink and the intended design shape may be destroyed. In addition, even if the material to be sewn is very easy to shrink even if it is not a material that melts in heat or water, the embroidery pattern may be different from the intended shape due to shrinkage caused by sewing. There is sex.

  In any of the above cases, a method of creating embroidery data considering shrinkage in advance is conceivable in order to prevent the design shape from collapsing due to shrinkage of the seam. Further, in the case of a material that is very easily contracted, a method of sewing a seam for underlaying in advance can be considered. However, in any method, it is difficult to maintain the intended design shape unless the creator of the data is familiar with the degree of shrinkage of the sewing object. Moreover, since the degree of shrinkage varies depending on the type of sewing object, the creator of the data does not always know the degree of shrinkage of the sewing object at that time.

  An object of the present invention is to provide an embroidery data creation apparatus and an embroidery data creation program for creating embroidery data that can prevent the shape of an embroidery pattern from being destroyed by shrinkage of a stitch after sewing.

  According to the first aspect of the present invention, there is provided an embroidery data creating apparatus for creating embroidery data for performing embroidery sewing by a sewing machine. The embroidery data creation device includes pattern data acquisition means, determination means, auxiliary data creation means, and embroidery data creation means. The pattern data acquisition means acquires pattern data which is data indicating stitches forming an embroidery pattern. When the embroidery pattern is sewn on a sewing object made of a specific material, the determination means satisfies a specific condition in the embroidery pattern based on the pattern data acquired by the pattern data acquisition means. It is determined whether or not the area exists. The auxiliary data creating means is a stitch connecting at least a part of a plurality of stitches formed in the area when the judging means judges that the area satisfying the specific condition exists. Auxiliary data that is data indicating the auxiliary stitches is created. The embroidery data creating means embroidery for sewing the embroidery pattern and the auxiliary seam from the pattern data obtained by the pattern data obtaining means and the auxiliary data created by the auxiliary data creating means. Create data.

  According to such an embroidery data creation device, when an embroidery pattern is sewn on a sewing object made of a specific material and an area that satisfies a specific condition exists in the embroidery pattern, the auxiliary stitches are supported in the area. Data is created, and embroidery data is created from the embroidery pattern data and auxiliary data. Therefore, when embroidery sewing is performed by the sewing machine according to the created embroidery data, at least a part of the plurality of stitches is connected by the auxiliary stitches in the region satisfying the specific condition in the embroidery pattern. . Accordingly, since the auxiliary seam suppresses the shrinkage of the seam of the embroidery pattern, it is possible to prevent the shape of the embroidery pattern from collapsing after sewing.

  In the embroidery data creation device, the determination means includes a first region that is a region including at least one long stitch that is a stitch longer than a predetermined length in the embroidery pattern, and a plurality of stitches. A region satisfying the specific condition is present when at least one of the second regions, which are closed regions having a circularity lower than a predetermined value, surrounded by the stitch line formed in a shape is included. May be. In this case, a long stitch that tends to collapse due to shrinkage after sewing or an auxiliary seam is surely formed for a stitch line that forms a closed region where the circularity is lower than a predetermined value. It is possible to prevent the shape from collapsing.

  In the embroidery data creation device, the auxiliary data creation means, when the judgment means judges that the first region is included in the embroidery pattern, at least one cross that intersects the at least one long stitch. The auxiliary data may be created as a seam as the auxiliary seam. In this case, it is possible to more reliably prevent the shape of the long stitch from being broken by the auxiliary stitch that intersects the long stitch.

  In the embroidery data generating apparatus, the auxiliary data generating means includes a number determining means for determining the number of the auxiliary stitches according to the length of the at least one long stitch, and the at least one long stitch. Position determining means for determining the position of the number of the auxiliary stitches determined by the number determining means according to the length, and the number of the auxiliary stitches at the position determined by the position determining means. And first data creating means for creating the auxiliary data. In this case, since an appropriate number of auxiliary stitches can be arranged at an appropriate position according to the length of the long stitch, it is possible to more reliably prevent the shape of the long stitch from being destroyed.

  In the embroidery data creation device, the auxiliary data creation means determines two points on the stitch line surrounding the second area when the judgment means judges that the second area is included in the embroidery pattern. The auxiliary data may be created using at least one stitch to be connected as the auxiliary stitch. In this case, it is possible to more reliably prevent the shape of the stitch line in the second region from being broken by the auxiliary stitch that connects the stitch line surrounding the second region whose circularity is lower than a predetermined value.

  In the embroidery data creation apparatus, the auxiliary data creation means includes a dividing unit that divides the second area into a plurality of divided areas each having a circularity equal to or greater than the predetermined value, and adjacent to the divided areas. And second data creating means for creating the auxiliary data as at least one stitch connecting two points at both ends of the boundary line between the two regions. In this case, the second area is divided into divided areas having a circularity of a predetermined value or more, and an auxiliary stitch is formed on the boundary line between the divided areas, so that the shape of the stitch line in the second area is prevented from collapsing. It is possible to efficiently arrange the auxiliary stitches to be performed.

  In the embroidery data generating apparatus, the auxiliary data generating means may generate the auxiliary data of the auxiliary stitch of the same type as the plurality of stitches forming the stitch line surrounding the second region. In this case, since the auxiliary stitches of the same type as the original stitch line are formed, it is possible to prevent the shape of the stitch line in the second region from being collapsed by the auxiliary stitch that does not feel uncomfortable with the original embroidery pattern. it can.

  In the embroidery data creation device, the specific material may be a water-soluble or heat-soluble material. Water-soluble or heat-soluble materials are often used on the premise that after the embroidery pattern is sewn, the sewing object is melted to form a so-called watermark pattern. In this case, the degree of shrinkage of the stitches of the embroidery pattern is greater than when the sewing object remains, but the shape of the embroidery pattern may be lost even after the sewing object is melted by forming the auxiliary seam. Can be prevented.

  According to the second aspect of the present invention, there is provided an embroidery data creation program for causing a computer to function as various processing means of the embroidery data creation device of the first aspect. Therefore, when the embroidery data creation program is executed by the computer, the same effects as those of the embroidery data creation device according to the first aspect can be obtained.

2 is a block diagram showing an electrical configuration of the embroidery data creation device 1. FIG. 1 is an external view of an embroidery sewing machine 3. FIG. 4 is a flowchart of main processing of the embroidery data creation apparatus 1. It is explanatory drawing of the pattern 60 containing 1st area | region R1-R3. FIG. 6 is an enlarged explanatory view of a portion surrounded by a one-dot chain line 61 in FIG. 4. It is a flowchart of the 1st area | region process performed by a main process. It is explanatory drawing of the pattern 60 to which the auxiliary stitches 611, 621, and 631 were added. It is explanatory drawing of the pattern 60 to which the auxiliary stitches 612, 613, 622, 623, 632, 633 were added. It is explanatory drawing of the pattern 70 containing 2nd area | region R5. FIG. 10 is an explanatory diagram of a stitch 78 forming a stitch line 75 of the pattern 70 of FIG. 9. It is a flowchart of the 2nd field processing performed by main processing. It is explanatory drawing of the division | segmentation method of the pattern. It is explanatory drawing of the pattern 70 which was divided into 3 and to which the auxiliary seams 88 and 89 were added.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. First, the configuration of the embroidery data creation apparatus 1 will be described with reference to FIG. The embroidery data creation device 1 is a device that creates embroidery data for sewing an embroidery pattern on a sewing object by an embroidery sewing machine 3 (see FIG. 2) described later. Examples of the sewing object include a work cloth, a water-soluble sheet, and a heat-soluble sheet.

  The embroidery data creation device 1 is a general-purpose device such as a so-called personal computer. As shown in FIG. 1, a CPU 11 that is a controller that controls the embroidery data creation apparatus 1 is provided. A RAM 12, a ROM 13, and an input / output (I / O) interface 14 are connected to the CPU 11. The RAM 12 temporarily stores various data. The ROM 13 stores BIOS and the like. The I / O interface 14 mediates data transfer. The I / O interface 14 includes a hard disk device (HDD) 15, a mouse 22 as an input device, a video controller 16, a key controller 17, a CD-ROM drive 18, a memory card connector 23, and an image scanner. The device 25 is connected. Although not shown in FIG. 1, the embroidery data creation apparatus 1 may include an external interface for connection to an external device or a network.

  A display 24 that is a display device is connected to the video controller 16, and a keyboard 21 that is an input device is connected to the key controller 17. A CD-ROM 54 can be inserted into the CD-ROM drive 18. For example, when setting up the embroidery data creation program, a CD-ROM 54 storing the embroidery data creation program is inserted into the CD-ROM drive 18. Then, the embroidery data creation program is read and stored in the program storage area 153 of the HDD 15. An embroidery data creation program acquired from an external device or via a network may be stored in the program storage area 153. A memory card 55 can be connected to the memory card connector 23 to read information from the memory card 55 and write information to the memory card 55.

  A storage area of the HDD 15 will be described. As shown in FIG. 1, the HDD 15 includes a plurality of storage areas including an embroidery data storage area 151, a setting storage area 152, a program storage area 153, and other data storage areas 154. The embroidery data storage area 151 stores embroidery data. The embroidery data is data indicating stitches for forming a pattern to be embroidery sewn. The embroidery data of this embodiment is data used when embroidery is performed by the embroidery sewing machine 3, and includes at least data relating to the needle drop point (the coordinate value of the XY coordinate system unique to the embroidery sewing machine 3) and the sewing order thereof. . In addition, the embroidery data may include data related to the color of the embroidery thread corresponding to each pattern. Hereinafter, a pattern in which embroidery data is stored in the embroidery data storage area 151 is referred to as a built-in pattern.

  In the setting storage area 152, various setting values used in various processes executed by the embroidery data creation apparatus 1 are stored. The program storage area 153 stores a plurality of programs including an embroidery data creation program executed by the CPU 11. The other data storage area 154 stores, for example, initial values and set values of various parameters. The embroidery data creation program may be stored in the ROM 13 or other storage device (flash ROM or the like).

  The embroidery sewing machine 3 will be briefly described with reference to FIG. The embroidery sewing machine 3 is a sewing machine that can sew an embroidery pattern based on embroidery data. As shown in FIG. 2, the embroidery sewing machine 3 includes a bed portion 30, a pedestal column portion 36, an arm portion 38, and a head portion 39. The bed portion 30 extends with the left-right direction as a longitudinal direction with respect to the sewer. The pedestal column portion 36 extends upward from the right end portion of the bed portion 30. The arm portion 38 extends leftward from the upper end of the pedestal column portion 36. The head portion 39 is connected to the left end of the arm portion 38.

  An embroidery frame 41 that holds a work cloth (not shown) on which embroidering is performed can be arranged on the bed portion 30. The embroidery frame 41 is moved to a position indicated by an apparatus-specific XY coordinate system by a Y-direction drive unit 42 and an X-direction drive mechanism (not shown). The X-direction drive mechanism is accommodated in the main body case 43. In synchronism with the movement of the embroidery frame 41, the needle bar 35 on which the sewing needle 44 is mounted and the shuttle mechanism (not shown) are driven to form an embroidery pattern on the work cloth. The Y direction drive unit 42, the X direction drive mechanism, and the needle bar 35 are controlled by a control device (not shown) built in the embroidery sewing machine 3. The control device is composed of a microcomputer or the like.

  A memory card slot 37 is mounted on the side surface of the leg post portion 36 of the embroidery sewing machine 3. A memory card 55 can be attached to and detached from the memory card slot. For example, embroidery data created or edited by the embroidery data creation device 1 (FIG. 1) is stored in the memory card 55 via the memory card connector 23. Then, the memory card 55 is inserted into the memory card slot 37, the stored embroidery data is read, and the embroidery data is stored in the embroidery sewing machine 3. A control device (not shown) of the embroidery sewing machine 3 automatically controls the embroidery operation by the above elements based on the embroidery data supplied from the memory card 55. In this manner, the embroidery sewing machine 3 can sew an embroidery pattern based on the embroidery data supplied from the embroidery data creation device 1.

  With reference to FIG. 3 to FIG. 13, main processing executed by the embroidery data creation device 1 will be described. The main process shown in FIG. 3 is executed by the CPU 11 in accordance with an embroidery data creation program stored in the HDD 15 of FIG. 1 that is activated when the user inputs an instruction to start the process.

  As shown in FIG. 3, when the main process is started, the user selects a pattern to be embroidered (S1). More specifically, for example, a screen (not shown) showing a list of built-in patterns and a determination key is displayed on the display 24 of the embroidery data creation apparatus 1. When the user selects a desired pattern by operating the mouse 22 and the keyboard 21 and then selects the enter key, the CPU 11 identifies the selected pattern (hereinafter referred to as a selected pattern) and stores the embroidery data in the HDD 15. From the area 151, embroidery data of the selected pattern (hereinafter referred to as selected pattern data) is acquired in the RAM 12. In S1, the user can also select a plurality of patterns. In this case, a plurality of selected pattern data corresponding to the plurality of selected patterns are acquired in the RAM 12 in the order of selection. The embroidery pattern is not limited to a built-in pattern, and may be a pattern in which embroidery data is stored in the memory card 55 or an external device, for example. In this case, the selected pattern data is read from the memory card 55 or an external device and acquired in the RAM 12.

  Subsequently, the selected pattern is edited (S2). In S2, for example, an edit screen (not shown) including an area for displaying a selected pattern, various keys for pattern editing, and a determination key is displayed on the display 24 of the embroidery data creation apparatus 1. In the area where the selected pattern is displayed, first, the selected pattern is displayed with the initially set size and arrangement. The pattern editing is, for example, pattern size change (enlargement or reduction), pattern arrangement change (movement, rotation, etc.). The user can perform desired editing on the selected pattern by selecting various keys.

  For example, when it is desired to create a larger pattern by combining a plurality of built-in patterns, the user can select a plurality of patterns in S1 and change the size and arrangement of these selected patterns in S2. When the determination key is selected after the pattern is appropriately edited on the editing screen, the editing content is confirmed, and the selected pattern data read in S1 is corrected according to the editing content. Specifically, the coordinate value indicating the needle drop point included in the selected pattern data is changed according to the editing content.

  After editing the selected pattern, a designation screen (not shown) for designating the design characteristics of the selected pattern is displayed on the display 24 (S3). Examples of the design characteristics of the selected pattern include the type of the sewing object and the necessity of creating auxiliary stitches. The type of the sewing object is whether or not the sewing object is a specific material. The specific material is a material in which the stitches of the pattern easily shrink after sewing, for example, a material that melts (for example, a water-soluble material and a heat-soluble material), a material that has a relatively high shrinkage rate (for example, knit), etc. It is.

  When the user wants to remove the sewing object after obtaining the selected pattern and obtain a watermark pattern, a material that melts is used for the sewing object. In this case, if the sewing object is melted after embroidery sewing of the pattern, the degree of shrinkage of the stitches of the pattern is greater than when the sewing object remains, so that there is a high possibility that the shape of the pattern will collapse. Similarly, in the case of a material having a relatively high shrinkage rate, depending on the type of pattern, the stitches of the pattern may shrink after sewing, and the shape of the pattern may collapse. In such a case, the auxiliary seam is a seam added to suppress the shrinkage of the seam and maintain the pattern shape. The auxiliary seam will be described in detail later.

  Subsequently, it is determined whether or not the sewing object is designated as a specific material on the designation screen (S4). If the sewing object is not a specific material (S4: NO), there is no need to add an auxiliary seam, so the main process is terminated. If the sewing object is a specific material (S4: YES), it is determined whether or not it is designated that the auxiliary seam needs to be created (S5). Even when the sewing object is a specific material, when the user has designated that the creation of the auxiliary seam is unnecessary, such as when it is known from experience that the shape of the selected pattern is unlikely to be lost (S5: NO), the main process ends as it is. On the other hand, when it is designated that the auxiliary stitch needs to be created (S5: YES), the auxiliary pattern is selected when the selected pattern includes a region that satisfies a specific condition (at least one of a first region and a second region described later). Processing to create embroidery data with stitches added is performed (S6 to S23).

  First, the number of selected patterns (hereinafter referred to as the total number of patterns) N selected in S1 and corresponding selection pattern data acquired in the RAM 12 is specified and stored in the RAM 12 (S6). The counter value n stored in the RAM 12 in order to process the N selection patterns in order is set to 1 as an initial value (S7). Then, embroidery data of the nth pattern (hereinafter referred to as pattern n) is read from the selected pattern data of the N selected patterns acquired in the RAM 12 (S8). Based on the embroidery data of the pattern n, it is determined whether or not the first area is included in the pattern n (S9).

  The first region is a region including at least one long stitch that is one stitch (a stitch connecting two needle drop points) longer than a predetermined length L0 (for example, about 10 mm). In the present embodiment, the long stitch is a target to which an auxiliary seam is added because the long stitch is a seam that easily contracts when the sewing object is melted or severely contracted. Whether one stitch is a long stitch or not is calculated by calculating the distance between consecutive needle drop points from the coordinate value of the needle drop point of the embroidery data, and the calculated distance is larger than the predetermined length L0. Whether or not it should be judged. When other long stitches longer than the predetermined length L0 are arranged within a predetermined distance D (for example, within 5 mm) from a certain long stitch, the first region is specified with these long stitches as one group. That is, the first region is specified as a region including at least one long stitch.

  For example, in the pattern 60 shown in FIG. 4, the portion surrounded by the alternate long and short dash line 61 is the distance between the needle drop points P1 and P2, the distance between P3 and P4, and between P5 and P6, as shown in FIG. The distance, the distance between P7 and P8, is longer than the predetermined length L0. In this case, the stitches formed on the line segments P1P2, P3P4, P5P6, and P7P8 correspond to long stitches, respectively. The line segments P1P2, P3P4, P5P6, and P7P8 are arranged within a predetermined distance D. Therefore, the four long stitches are made into one group, and the first region R1 is specified. For the pattern 60 in FIG. 4, the first regions R <b> 2 and R <b> 3 are specified in the portions surrounded by the alternate long and short dash lines 62 and 63, respectively. That is, it is determined that the pattern 60 includes three first regions (S9: YES). In such a case, the first area process is performed (S10, FIG. 6). The first area process is a process for creating auxiliary data indicating auxiliary stitches that intersect at least one long stitch in the first area.

  As shown in FIG. 6, in the first area process, first, the total number of first areas (hereinafter referred to as the first area number) M included in the pattern n specified in S9 of the main process (FIG. 3) is specified. (S101). In the example of the pattern 60 in FIG. 4, the first area number M is specified to be 3. The counter value m stored in the RAM 12 in order to process the M first areas in order is set to an initial value of 1 (S102). The length of the long stitch included in the m-th first region (hereinafter referred to as region m) is specified (S103), and the number of auxiliary stitches to be added according to the specified length (S104), The position where the auxiliary seam is arranged is determined (S105).

  For example, the number of auxiliary stitches may be determined with reference to a table (not shown) stored in advance in the setting storage area 152 of the HDD 15. In the table, for example, one auxiliary stitch when the length of the long stitch is 10 mm or more and less than 15 mm, two when the length is 15 mm or more and less than 20 mm, and the number of the stitches for each long stitch length range. Define it. However, this numerical value is an example, and the range and the number can be changed as appropriate. When a plurality of long stitches having different lengths are included in the first region, the above-mentioned number may be determined based on the longest long stitch.

  The position of the auxiliary stitch is determined as follows, for example. When the number of auxiliary stitches is one, as shown in FIG. 7, the auxiliary stitches 611, 621, and 631 are arranged so as to intersect the long stitches at the center positions of the long stitches in the first regions R1 to R3. . In the case where there are two auxiliary stitches, as shown in FIG. 8, the auxiliary stitches 612, 613, 622, 623, 632, and 633 are arranged. When a plurality of long stitches are included in the first region, the position may be determined based on the longest long stitch.

  In addition, since the effect which suppresses shrinkage | contraction of a long stitch is hardly acquired if the angle with respect to the long stitch of an auxiliary seam is 90 degree | times, it is preferable to set it as an angle other than 90 degree | times (for example, about 60 degree | times). The length of the auxiliary stitch may be set in advance, and a length (for example, about 5 mm to 10 mm) stored in the setting storage area 152 of the HDD 15 may be used, or a length specified by the user may be used. May be. However, it is preferable that the auxiliary stitch has a length that intersects all the long stitches in the first region.

  When the number and position of the auxiliary stitches are determined in this way, the coordinate value of the needle drop point for forming the auxiliary stitches is calculated, so that auxiliary data is created and stored in the RAM 12 ( S106). The auxiliary data created by the first area processing is data indicating at least one stitch, and includes coordinate values of at least two needle drop points. For example, the auxiliary seam 611 in FIG. 7 may be a seam that connects the needle drop points P11 and P12 at a minimum.

  When the creation of auxiliary data is completed for the area m, 1 is added to the counter value m stored in the RAM 12 (S107), and then whether or not the counter value m exceeds the first area number M specified in S101. Determination is made (S108). While the counter value m does not exceed the first area number M (S108: NO), since there is an unprocessed first area, the process returns to S103, and the auxiliary stitch for the long stitch in the next area m is arranged. Then, the process of creating auxiliary data is repeated (S103 to S108). In the example of the pattern 60 in FIG. 4, when the counter value m is set to 4 in S107 of the third process of the first region R3, the number of first regions M (= 3) is exceeded (S108: YES). In such a case, since there is no longer any unprocessed first area, the CPU 11 ends the first area process shown in FIG. 6 and returns to the main process shown in FIG.

As shown in FIG. 3, when it is determined that the pattern n does not include the first area (S9: NO), or after the first area processing (S10), whether the pattern n includes the second area or not. Is determined (S11). The second region is a closed region having a circularity lower than a predetermined value surrounded by a stitch line formed in a line shape with a plurality of stitches. The circularity C of the closed region surrounded by the stitch line is obtained by the following equation when the area of the closed region is S and the perimeter is L, and approaches 1 as the circle is closer to a perfect circle.
C = (4π × S) / L ²

  The embroidery pattern has a shape closer to a circle (the closer the degree of circularity is to 1), the less distortion of the shape even when contracted, and the more the shape is away from the circle, the greater the distortion when contracted. Therefore, in the present embodiment, the seam line surrounding the region having a relatively low degree of circularity is a seam that easily contracts when the sewing object is melted or contracts violently, so an auxiliary seam is added. It is targeted. The stitch line referred to in this embodiment is not only a stitch line formed by a plurality of stitches arranged on one line as in a running stitch, but also a stitch or decorative type such as a zigzag stitch. This includes the case where the seams are arranged linearly along one line. For example, in the pattern 70 shown in FIG. 9, a plurality of decorative stitches 78 shown in FIG. 10 are linearly formed along the contour line of the arch-shaped closed region including the curve 71, the straight line 72, the curve 73, and the straight line 74. By arranging, a stitch line 75 surrounding the second region R5 is formed.

  In S11, when there is a closed region having a circularity lower than a predetermined value (for example, 0.5) in the pattern n, it is determined that the pattern n includes the second region (S11: YES). Note that, as in the case of the pattern 70 in FIG. 9, the case where the shape of the pattern n itself is a closed region where the circularity is lower than a predetermined value corresponds to the case where the pattern n includes the second region. In this case, the second area process is performed (S20, FIG. 11). The second area process is a process for creating auxiliary data using at least one stitch connecting two points on the stitch line surrounding the second area as an auxiliary stitch.

  As shown in FIG. 11, in the second area process, first, the total number of second areas (hereinafter referred to as the second area number) B included in the pattern n specified in S11 of the main process (FIG. 3) is specified. (S201). In the example of the pattern 70 in FIG. 9, the second area number B is specified to be 1. The counter value b stored in the RAM 12 for sequentially processing the B second areas is set to an initial value 1 (S202). Then, the type of stitch forming the stitch line of the b-th second region (hereinafter referred to as region b) is specified (S203). In the example of the pattern 70 in FIG. 9, it is specified that the type of the seam that forms the seam line 75 surrounding the second region R5 is the seam 78 shown in FIG.

  Subsequently, the minimum rectangle S0 including the region b is set (S204), and the longitudinal direction of the minimum rectangle S0 is specified as the longitudinal direction of the region b (S205). In the example of the pattern 70 in FIG. 9, the minimum rectangle S0 as shown in FIG. 12 is specified, and the direction of the arrow A is specified as the longitudinal direction of the pattern 70. Further, after the counter value k for counting the number of divisions for dividing the area b into k divided areas is set to 2 (S206), the area b is divided into k divided areas. That is, in the first process, the area b is divided into two divided areas. The division of the area b is performed by the following method, for example. First, the minimum rectangle S0 is equally divided into k areas in the longitudinal direction. Then, the region b is divided into k divided regions with the dividing line of the minimum rectangle S0 (the boundary line between two adjacent regions among the k regions) as the dividing line of the region b. In the example of the pattern of FIG. 9, in the first process (k = 2), as shown in FIG. 12, the pattern 70 is divided into two regions 81 and 82 by a dividing line K0 that divides the minimum rectangle S0 into two.

  Further, the circularity is obtained for each of the k divided regions, and it is determined whether or not the circularity of all the divided regions is equal to or greater than the predetermined value (S208). If the circularity of all the divided areas is not equal to or greater than the predetermined value (S208: NO), 1 is added to the counter value k (S209), and the area b is divided into one more divided area than the previous process. (S207). This process is repeated until the circularity of all the divided areas becomes equal to or greater than a predetermined value (S207 to S209). When the circularity of all the divided areas is equal to or greater than a predetermined value (S208: YES), two points on both ends of the divided line of area b, that is, the boundary line between two adjacent areas among the k divided areas. An auxiliary seam connected to the seam line of the region b is arranged (S211).

  Then, by calculating the coordinate value of the needle drop point for forming the auxiliary stitch, auxiliary data is created and stored in the RAM 12 (S212). In the second area processing of the present embodiment, auxiliary data of the same type as the auxiliary seam that forms the seam line of the area b specified in S203 is created. As a result, an auxiliary seam that does not feel uncomfortable with the original pattern corresponding to the region b can be formed. When the creation of the auxiliary data for the area b is completed, 1 is added to the counter value b stored in the RAM 12 (S213), and then whether or not the counter value b exceeds the second area number B specified in S201. Determination is made (S214). While the counter value b does not exceed the second area number B (S214: NO), since there is an unprocessed second area, the process returns to S203, and the next area b is divided and auxiliary stitches are arranged. The process of creating auxiliary data is repeated (S203 to S214).

  When the second region R5 corresponding to the pattern 70 in FIG. 9 is divided into three regions 83, 84, and 85 by dividing lines K1 and K2 that equally divide the minimum rectangle S0 into three as shown in FIG. 13 (k = 3 )), It is assumed that the circularity of the regions 83, 84, 85 is all equal to or greater than a predetermined value. In this case, auxiliary stitches 88 connected to the stitch line 75 at two points at both ends thereof are arranged on the boundary line between the region 83 and the region 84, and sewing is performed at two points at both ends on the boundary line between the region 84 and the region 85. An auxiliary seam 89 connected to the line of sight 75 is disposed. Since the auxiliary seams 88 and 89 are both formed by the same type of seam 78 as the seam line 75 (see FIG. 10), even if the auxiliary seams 88 and 89 are added to the seam line 75, the overall feeling of strangeness is felt. It is possible to form a pattern without any. In this example, when the counter value b is 2, the number of second areas B (= 1) is exceeded (S214: YES). In such a case, since there is no more unprocessed second area, the CPU 11 ends the second area process shown in FIG. 11 and returns to the main process shown in FIG.

  As shown in FIG. 3, in the main process, when it is determined that the pattern n does not include the second area (S11: NO), or after the second area process (S20), the first area process (S10) or It is determined whether auxiliary data has been created in the second area process (S20) (S21). If there is auxiliary data stored in the RAM 12, auxiliary data has been created (S21: YES), so that auxiliary stitches have been added from the embroidery data and auxiliary data of the pattern n read in S8. Final embroidery data for sewing the pattern n is created (S22). Specifically, among the needle drop points of pattern n, the pattern n is such that, after the last needle drop point in the sewing order, the first needle drop point in the sewing order continues among the needle drop points of the auxiliary stitches. The sewing order of the needle drop points included in the embroidery data and the auxiliary data is set as one embroidery data. That is, when the sewing is performed according to the embroidery data, the auxiliary stitch is sewn after the pattern n. However, the sewing order of the auxiliary stitches is not limited to this, and may be before the pattern n. When the embroidery data is created, the process proceeds to S23. On the other hand, if auxiliary data has not been created (S21: NO), the process proceeds directly to S23.

  In S23, 1 is added to the counter value n for specifying the selected pattern to be processed, and the next selected pattern in the selected pattern is set as the processing target. Then, it is determined whether or not the counter value n exceeds the total number N of patterns (S24). If the counter value n does not exceed the pattern total number N (S24: NO), since the unprocessed selected pattern remains, the process returns to S8, and the next pattern n is processed as necessary as described above. Processing for creating auxiliary data is performed (S8 to S24). When the counter value n exceeds the total pattern number N (S24: YES), the CPU 11 ends the main process shown in FIG.

  As described above, according to the embroidery data creation device 1 of the present embodiment, a pattern to be sewn on a sewing object made of a specific material has a first region including at least one long stitch and a circularity predetermined. When including at least one of the second regions lower than the value, at least a part of the plurality of stitches formed in the first region and the second region (that is, long stitches, stitch lines surrounding the second region) Embroidery data to which auxiliary data for connecting auxiliary stitches is added is created. Therefore, even if the sewing object is melted or contracted severely after the pattern is formed, the stitches surrounding the long stitch and the second area are contracted by the auxiliary stitches and the shape of the pattern is destroyed. Can be prevented.

  In particular, in the case of long stitches in the first region, the auxiliary stitches that intersect the long stitches are formed in appropriate positions with appropriate numbers according to the length of the long stitches, so that the shape of the long stitches is lost. Can be reliably prevented. Further, in the case of the second region, the second region is divided into a plurality of divided regions having a circularity of a predetermined value or more, and auxiliary seams that connect the seam lines surrounding the second region on the boundary line between the divided regions. Since it is formed, it is possible to efficiently arrange the auxiliary stitches that prevent the shape of the stitch line from being broken.

  In the present embodiment, the CPU 11 that performs the process of acquiring the selected pattern data from the HDD 15 in S1 of the main process in FIG. 3 corresponds to the “pattern data acquisition unit” of the present invention. The CPU 11 that performs the process of determining whether or not the pattern n includes at least one of the first area and the second area in S9 and S11 corresponds to “determination means”. The CPU 11 that performs the first area process of S10 and the second area process of S20 corresponds to auxiliary data creating means. In S22, the CPU 11 that performs a process of creating final embroidery data from the embroidery data of pattern n and auxiliary data corresponds to “embroidery data creating means”.

  The CPU 11 that performs the process of determining the number of auxiliary stitches in accordance with the number of long stitches in S104 of the first area process in FIG. 6 corresponds to the “number determining unit”, and determines the position of the auxiliary stitches in S105. The CPU 11 that performs the process corresponds to “position determining means”, and the CPU 11 that performs the process of creating auxiliary data in S106 corresponds to “first data creating means”. The CPU 11 that performs the process of dividing the area b into a plurality of divided areas having a circularity of a predetermined value or more in S207 to S209 of the second area process of FIG. 11 corresponds to “dividing means”, and auxiliary data is obtained in S211 to S212. The CPU 11 that performs the creation processing corresponds to “second data creation means”.

  In addition, this invention is not limited to the said embodiment, A various change is possible. For example, in the said embodiment, the water-soluble material and the heat-soluble material were illustrated as a material to melt | dissolve. However, the material that can be dissolved may be a material that can be dissolved in some kind of solution. In this case, however, the embroidery thread needs to be a kind of solution that does not dissolve.

  The main processing of the above embodiment is an example in which auxiliary data for auxiliary stitches is created when the pattern n includes at least one of the first region and the second region. However, in the main process, for example, auxiliary data that intersects the long stitch may be created only when the pattern includes the first region. In this case, the number and arrangement position of the auxiliary stitches that intersect the long stitch may be determined by a method other than the example of the embodiment. For example, the number and position designated by the user may be used. The number and position of the auxiliary stitches may be set uniformly regardless of the length of the long stitch.

  In the main processing, auxiliary data for auxiliary stitches connecting two points on the stitch line surrounding the second area may be created only when the pattern includes the second area. Also in this case, the number of auxiliary stitches and the arrangement position do not necessarily have to be determined by dividing the pattern into a plurality of divided regions using the minimum rectangle. For example, the user may divide the pattern by specifying a dividing line. When the circularity of each divided area becomes equal to or greater than a predetermined value, an auxiliary stitch may be arranged on the boundary line of the divided area at that time. The user may specify the position of the auxiliary stitch using the boundary line as a guide. Further, the auxiliary stitch type in the second area processing does not necessarily have to be the same as the stitch type of the stitch line surrounding the second area.

  In the above embodiment, auxiliary data is created by the first area processing and the second area processing only when the sewing object is a specific material and the user specifies that an auxiliary stitch needs to be created. Is done. In this case, efficient processing according to the user's wish can be realized. However, the CPU 11 may always create auxiliary data when the sewing object is a specific material and the pattern includes at least one of the first region and the second region. That is, the determination process of S5 of the main process according to the user's specification may be omitted.

1 Embroidery Data Creation Device 3 Sewing Machine 11 CPU

Claims (9)

An embroidery data creation device for creating embroidery data for performing embroidery sewing by a sewing machine,
Pattern data acquisition means for acquiring pattern data which is data indicating stitches forming an embroidery pattern;
When the embroidery pattern is sewn on a sewing target made of a specific material, based on the pattern data acquired by the pattern data acquisition means, does the embroidery pattern have a region that satisfies a specific condition? A determination means for determining whether or not,
Data indicating an auxiliary stitch that is a stitch connecting at least a part of a plurality of stitches formed in the region when the determination unit determines that the region satisfying the specific condition exists. Auxiliary data creating means for creating certain auxiliary data;
Embroidery data creation for creating embroidery data for sewing the embroidery pattern and the auxiliary stitches from the pattern data acquired by the pattern data acquisition means and the auxiliary data created by the auxiliary data creation means An embroidery data creation device comprising means.   In the embroidery pattern, the determination means includes a first region that is a region including at least one long stitch that is a stitch longer than a predetermined length, and a stitch line that is formed linearly with a plurality of stitches. The region that satisfies the specific condition is determined to be present when at least one of the second regions that are enclosed regions having a circularity lower than a predetermined value is included. The embroidery data creation device according to 1.   The auxiliary data creating means, when the judging means judges that the first region is included in the embroidery pattern, at least one seam that intersects the at least one long stitch. The embroidery data creating apparatus according to claim 2, wherein the auxiliary data is created. The auxiliary data creation means includes
A number determining means for determining the number of the auxiliary stitches according to the length of the at least one long stitch;
Position determining means for determining the position of the number of the auxiliary stitches determined by the number determining means according to the length of the at least one long stitch;
4. The embroidery data according to claim 3, further comprising first data creating means for creating the auxiliary data by arranging the number of the auxiliary stitches at the position determined by the position determining means. 5. Creation device.   The auxiliary data creating means, when the judging means judges that the second area is included in the embroidery pattern, at least one stitch connecting two points on the stitch line surrounding the second area. The embroidery data creating apparatus according to claim 2, wherein the auxiliary data is created using an eye as the auxiliary stitch. The auxiliary data creation means includes
A dividing unit that divides the second region into a plurality of divided regions each having a circularity equal to or greater than the predetermined value;
A second data creating means for creating the auxiliary data as the auxiliary seam, connecting at least two stitches at both ends of a boundary line between two adjacent areas among the plurality of divided areas; The embroidery data creation apparatus according to claim 5.   7. The auxiliary data creating means creates the auxiliary data of the same type of the auxiliary stitches as the plurality of stitches forming the stitch line surrounding the second region. Described embroidery data creation device.   The embroidery data creation apparatus according to any one of claims 1 to 7, wherein the specific material is a water-soluble or heat-soluble material.   An embroidery data creation program for causing a computer to function as various processing means of the embroidery data creation device according to claim 1.