The present disclosure relates to a sewing machine configured to sew an embroidery pattern, and to a non-transitory computer-readable medium.
A sewing machine configured to sew an embroidery pattern is known. In the known sewing machine, when a plurality of patterns are continuously sewn on mutually different sewing objects, pattern data are sequentially read out from embroidery data including pattern data used for sewing each of the patterns, and the pattern currently being sewn and the pattern to be sewn subsequently are displayed on a display.
In the known sewing machine, when the sewing is started on the basis of the embroidery data, it is not possible to correct a sewing position of each of the pattern data included in the embroidery data. Thus, in order to change an arrangement of the pattern with respect to the sewing object, it is necessary for a user to change a holding position of the sewing object with respect to an embroidery frame after starting the sewing on the basis of the embroidery data, and this is complex.
Various embodiments of the broad principles derived herein provide a sewing machine and a non-transitory computer-readable medium that facilitate an operation to change an arrangement of a pattern with respect to a sewing object, after a start of sewing on the basis of embroidery data.
A sewing machine comprising:
Embodiments provide a sewing machine that includes a holder, a movement portion, a movement portion, a needle bar, a sewing portion, an input portion, a processor, and a memory. The holder is removably mounted with an embroidery frame configured to hold a sewing object. The movement portion includes a movement motor and is configured to move the holder in two predetermined directions using a driving force of the movement motor. The needle bar has a lower end with which a sewing needle is mountable. The sewing portion includes a drive shaft motor and is configured to move the needle bar up and down using a driving force of the drive shaft motor. The processor is configured to control the movement portion and the sewing portion. The memory is configured to store computer-readable instructions that, when executed by the processor, instruct the processor to perform processes. The processes include acquiring embroidery data to sew a plurality of patterns in a predetermined sewing order. The embroidery data includes a plural pieces of pattern data and at least one piece of partition data. The plural pieces of pattern data and the at least one piece of partition data are alternately allocated in the embroidery data. The plural pieces of pattern data are allocated in the sewing order. Each of the plural pieces of pattern data is the pattern data to sew corresponding pattern from among the plurality of patterns. Each of the at least one piece of partition data represents a boundary between two pieces of the pattern data successive in the sewing order from among the plural pieces of pattern data. The processes include associating, for each of the plural pieces of pattern data included in the embroidery data, a sewing position of the corresponding pattern with the pattern data. The processes include stopping driving of the movement portion and the sewing portion when one of the at least one piece of partition data included in the embroidery data is read out. The processes include driving the movement portion and the sewing portion in accordance with a next piece of pattern data and the sewing position associated with the next piece of pattern data, when a sewing start command is received via the input portion during a stop period in which the driving of the movement portion and the sewing portion is stopped, after starting sewing on the basis of the embroidery data. The next piece of pattern data is next in the sewing order included in the embroidery data. The processes include receiving a change command, which is input via the input portion, to change, for each of at least one piece of target pattern data, the sewing position associated with the pattern data, during the stop period. Each of the at least one piece of target pattern data is the pattern data to sew a target pattern. The target pattern is a target of the change from among the plurality of patterns. The processes include, when the change command is received, changing, for each of the at least one piece of target pattern data, the sewing position associated with the pattern data in accordance with the change command.
Embodiments further provide a non-transitory computer-readable medium that stores computer-readable instructions that are executed by a processor provided in a sewing machine including a movement portion, a sewing portion and an input portion. The computer-readable instructions, when executed, instruct the processor to perform processes. The processor is configured to control the movement portion and the sewing portion. The memory is configured to store computer-readable instructions that, when executed by the processor, instruct the processor to perform processes. The processes include acquiring embroidery data to sew a plurality of patterns in a predetermined sewing order. The embroidery data includes a plural pieces of pattern data and at least one piece of partition data. The plural pieces of pattern data and the at least one piece of partition data are alternately allocated in the embroidery data. The plural pieces of pattern data are allocated in the sewing order. Each of the plural pieces of pattern data is the pattern data to sew corresponding pattern from among the plurality of patterns. Each of the at least one piece of partition data represents a boundary between two pieces of the pattern data successive in the sewing order from among the plural pieces of pattern data. The processes include associating, for each of the plural pieces of pattern data included in the embroidery data, a sewing position of the corresponding pattern with the pattern data. The processes include stopping driving of the movement portion and the sewing portion when one of the at least one piece of partition data included in the embroidery data is read out. The movement portion includes a movement motor and is configured to move a holder in two predetermined directions using a driving force of the movement motor. The holder is removably mounted with an embroidery frame holding a sewing object. The sewing portion includes a drive shaft motor and is configured to move a needle bar up and down using a driving force of the drive shaft motor. The needle bar has a lower end with which a sewing needle is mountable. The processes include driving the movement portion and the sewing portion in accordance with a next piece of pattern data and the sewing position associated with the next piece of pattern data, when a sewing start command is received via the input portion during a stop period in which the driving of the movement portion and the sewing portion is stopped, after starting sewing on the basis of the embroidery data. The next piece of pattern data is next in the sewing order included in the embroidery data. The processes include receiving a change command, which is input via the input portion, to change, for each of at least one piece of target pattern data, the sewing position associated with the pattern data, during the stop period. Each of the at least one piece of target pattern data is the pattern data to sew a target pattern. The target pattern is a target of the change from among the plurality of patterns. The processes include, when the change command is received, changing, for each of the at least one piece of target pattern data, the sewing position associated with the pattern data in accordance with the change command.
Embodiments will be described below in detail with reference to the accompanying drawings in which:
Hereinafter, an embodiment of the present disclosure will be explained with reference to the drawings. A physical configuration of a multi-needle sewing machine (hereinafter simply called the sewing machine) 1 will be explained with reference to
As shown in
An operation portion 6 is provided on the arm 4. The operation portion 6 is provided with a liquid crystal display (LCD) 7, a touch panel 8, and a start/stop switch 41. Various types of information that are used when a user inputs a command, for example, may be displayed on the LCD 7. The touch panel 8 is disposed on a front surface side of the LCD 7, and can detect a position that is pressed. When the user performs a pressing operation on the touch panel 8 using a finger or a stylus pen (not shown in the drawings), the pressed position is detected by the touch panel 8. A CPU 61 (refer to
A tube-shaped cylinder head 10 that extends toward the front from the lower end of the pillar 3 is provided below the arm 4. A shuttle (not shown in the drawings) is provided in the interior of the front end of the cylinder head 10. The shuttle may accommodate a bobbin (not shown in the drawings), around which a lower thread (not shown in the drawings) is wound. A shuttle drive mechanism (not shown in the drawings) is provided in the interior of the cylinder head 10. The shuttle drive mechanism is configured to rotationally drive the shuttle. A needle plate 16, which is rectangular in a plan view, is provided on the top face of the cylinder head 10. A needle hole 36, through which the sewing needle 35 may pass, is provided in the needle plate 16. Among the six needle bars 31, the one needle bar 31 that is positioned in the sewing position, which is directly above the needle hole 36, is the sewing needle bar. A Y carriage 26 of a movement mechanism 11 (refer to
The electrical configuration that performs overall control of the sewing machine 1 will be explained with reference to
The sewing needle drive portion 120 is provided with drive circuits 121, 123, 125, the drive shaft motor 122, a needle bar case motor 45, and a threading motor 127. The drive shaft motor 122 may move the sewing needle bar reciprocally up and down by operating the needle bar drive mechanism 32. The drive circuit 121 may drive the drive shaft motor 122 in accordance with a control signal from the control portion 60. The needle bar case motor 45 may cause the needle bar case 21 to move in the left-right direction. The drive circuit 123 may drive the needle bar case motor 45 in accordance with a control signal from the control portion 60. The threading motor 127 may cause a threading mechanism 126 to drive. The drive circuit 125 may drive the threading motor 127 in accordance with a control signal from the control portion 60.
The sewing target drive portion 130 is provided with drive circuits 131, 133, an X axis motor 132, and a Y axis motor 134. The X axis motor 132 may move the embroidery frame 84 in the left-right direction by driving the movement mechanism 11. The drive circuit 131 may drive the X axis motor 132 in accordance with a control signal from the control portion 60. The Y axis motor 134 may move the embroidery frame 84 in the front-rear direction by driving the movement mechanism 11. The drive circuit 133 may drive the Y axis motor 134 in accordance with a control signal from the control portion 60.
The operation portion 6 is provided with the touch panel 8, a connector 9, a drive circuit 135, the LCD 7, and the start/stop switch 41. The drive circuit 135 may drive the LCD 7 in accordance with a control signal from the control portion 60. The connector 9 is provided with a function that connects with a USB device 160. The USB device 160 may be a PC or a USB memory, for example. The detector 33 mechanically detects the type of the embroidery frame mounted on the holder 25, and is a rotational potentiometer provided with a function to input, to the control portion 60, a signal that accords with the type of the embroidery frame (For example, refer to Japanese Laid-Open Patent Publication No. 2015-173876, the relevant portions of which are herein incorporated by reference).
The control portion 60 is provided with a CPU 61, a ROM 62, a RAM 63, a flash memory 64, and an input/output interface (I/O) 66, all of which are connected by a bus 65. The I/O 66 is also connected to the detector 33, the sewing needle drive portion 120, the sewing target drive portion 130, and the operation portion 6.
The CPU 61 is configured to perform the main control of the sewing machine 1. In accordance with various types of programs that may be stored in a program storage area (not shown in the drawings) of the ROM 62, the CPU 61 may perform various types of computations and processing that pertain to sewing. The ROM 62 is provided with a plurality of storage areas, including the program storage area, which is not shown in the drawings. Various programs used to operate the sewing machine 1, including a sewing machine program used to execute sewing processing to be described later, are stored in the program storage area. The RAM 63 is a memory element that is freely readable and writable. The RAM 63 is provided, as necessary, with storage areas to store computation results and the like resulting from the computation processing performed by the CPU 61. The flash memory 64 is a readable and writable memory element. Various parameters used for the sewing machine 1 to execute various processing are stored in the flash memory 64. The flash memory 64 includes a pattern storage area 67 and an area storage area 68. The pattern storage area 67 stores, for each of a plurality of patterns, pattern data used to sew the corresponding pattern from among plurality of patterns that can be sewn by the sewing machine 1. The pattern data includes stitch data for each of color switching data. The color switching data is data indicating a color of a thread used to form stitches. The stitch data is data indicating coordinates, of the embroidery coordinate system, of formation positions (needle drop positions) of the stitches included in the patterns. In other words, the stitch data includes data groups indicating a plurality of coordinates for each of needle drop points. The area storage area 68 stores a correspondence between the type of the embroidery frame that can be mounted on the holder 25 and a sewing area. The sewing area is an area on which sewing is possible and which is set inside the embroidery frame mounted on the holder 25 of the sewing machine 1.
Operations to form the stitches on the sewing object held by the embroidery frame 84 will be explained with reference to
An overview of the sewing processing that can be performed by the sewing machine 1 will be explained. The sewing processing is performed when continuously sewing mutually different patterns at mutually different timings on each of a plurality of sewing objects, such as when sewing character patterns representing names onto work clothing, uniforms, or the like. In the sewing processing, the CPU 61 of the control portion 60 acquires an embroidery data used to sew a plurality of patterns in a predetermined sewing order. The embroidery data includes a plural pieces of pattern data and at least one piece of partition data. The plural pieces of pattern data and the at least one piece of partition data are alternately allocated in the embroidery data. The plural pieces of pattern data are allocated in the sewing order. Each of the plural pieces of pattern data is the pattern data to sew corresponding pattern from among the plurality of patterns. Each of the at least one piece of partition data represents a boundary between two pieces of the pattern data successive in the sewing order from among the plural pieces of pattern data. The CPU 61 associates, for each of the plural pieces of pattern data included in the embroidery data, a sewing position of the corresponding pattern with the pattern data. When one of the at least one piece of partition data included in the embroidery data is read out, the CPU 61 stops the driving of the movement mechanism 11 and the needle bar drive mechanism 32. While the sewing is stopped, the user replaces the sewing object, and inputs a start command to start the sewing of the next pattern. When the sewing machine 1 receives the start command via the operation portion 6 during a stop period in which the driving of the movement mechanism 11 and the needle bar drive mechanism 32 is stopped after the start of the sewing on the basis of the embroidery data, the movement mechanism 11 and the needle bar drive mechanism 32 are driven in accordance with the sewing position associated with the present pattern data and the next pattern data in the sewing order included in the embroidery data. During the stop period, the sewing machine 1 is configured to receive, via the operation portion 6, a change command to change for each of at least one piece of target pattern data, the sewing position associated with the pattern data. Each of the at least one piece of target pattern data is the pattern data to sew a target pattern. The target pattern is a target of the change from among the plurality of patterns. When the sewing machine 1 receives the change command, CPU 1 changes, for each of the at least one piece of target pattern data, the sewing position associated with the pattern data in accordance with the change command.
The sewing processing will be explained with reference to
As shown in
Since the color switching data da1 is not the STOP data (no at step S4), the CPU 61 increments N by 1 (step S7) and returns the processing to step S3. By the processing repeatedly performed at step S3, when the STOP data dc1 subsequent to the stitch data db1 used to sew the character pattern 51 is acquired (yes at step S4), the CPU 61 performs the association of the sewing position of the character pattern 51 that is sewn using the pattern data D1 including the data immediately preceding the STOP data dc1 (step S5). More specifically, when the sewing position is not assigned to each of the plural pieces of pattern data included in the embroidery data acquired at step S1, the CPU 61 assigns a predetermined value, as the sewing position, to each of the plural pieces of pattern data, and associates the sewing position of the pattern to be sewn by the pattern data, with each of the plural pieces of pattern data included in the embroidery data. The predetermined value of the present embodiment is a value, expressed using the embroidery coordinate system, at which the center of the mask area of the pattern represented by the data is aligned with the center of the sewing area 49. In the pattern data D1 that is the target of the processing, the CPU 61 of the present embodiment inserts sewing position data dd1 between the color switching data da1 and the stitch data db1.
The CPU 61 determines whether the N-th data is the last data of the embroidery data D acquired by the processing at step S1 (step S6). The STOP data dc1 is not the last data (no at step S6). In this case, the CPU 61 increments N by 1 (step S7), and returns the processing to step S3. By repeating the processing at step S5, the sewing position data dd1 to sewing position data dd5 indicating the predetermined values are assigned, as the respective sewing positions, to the five pieces of pattern data D1 to D5 included in the embroidery data D, and the sewing positions of the patterns to be sewn by the pattern data are associated with each of the pattern data included in the embroidery data.
When the N-th data is the STOP data dc5 that is the last data of the embroidery data D acquired by the processing at step S1 (yes at step S6), the CPU 61 acquires M-th pattern data in the sewing order of embroidery data DC to which the sewing position data dd1 to dd5 have been assigned by the above processing (step S8). An initial value of M is 1, and the CPU 61 acquires pattern data DC1. The CPU 61 displays, on the LCD 7, a finished sewing image of the M-th pattern data (step S9). In the specific example, a screen 70 exemplified in
The pattern switching key 72 is a key used to input a command to switch between whether to select all of the plurality of patterns to be sewn in accordance with the plural pieces of pattern data included in the embroidery data DC acquired at step S1 to which the sewing position data has been assigned, or whether to select a particular one of the plurality of patterns. When all of the plurality of patterns are selected using the pattern switching key 72, a background of the pattern switching key 72 becomes a first color, and when the particular one of the plurality of patterns is selected, the background of the pattern switching key 72 becomes a second color that is different from the first color. In
The order display field 73 displays, in ascending order from top to bottom, the sewing order of the plurality of character patterns 51 to 55 to be sewn in accordance with the embroidery data DC. Of the character patterns displayed in the order display field 73, the character pattern 51 to the left of which the triangular cursor 76 is placed is the selected character pattern when the one particular pattern is selected from among the plurality of patterns. The pattern moving key 74 is a key used to input a command to move the sewing position of the selected pattern. The pattern selecting key 75 is a key used to input a command to change the selected pattern.
The user places the sewing object on the embroidery frame 84, and, after checking the sewing position and the like, inputs the sewing start command. Checking the sewing position can be realized by carrying out a trace function by which the user can ascertain the sewing position with respect to the sewing object in advance, by moving the embroidery frame 84 along with the pattern before the sewing (For example, refer to Japanese Laid-Open Patent Publication No. 2009-201537, the relevant portions of which are herein incorporated by reference.). The CPU 61 determines whether or not the sewing start command has been input via the operation portion 6 (step S10). When the sewing start command has not been input (no at step S10), the CPU 61 determines whether or not a change command to edit the selected pattern has been input (step S18). When the command input using the pattern moving key 74 has been acquired, the CPU 61 of the present embodiment determines that the change command to edit the pattern has been input (yes at step S18). When the change command has not been input (no at step S18), the CPU 61 returns the processing to step S10. When the sewing start command has been input (yes at step S10), the CPU 61 drives the needle bar case motor 45 on the basis of the M-th pattern data acquired at step S8, and sets, as the sewing needle bar, the needle bar 31 for which is set the thread of the color indicated by the color switching data (step S11). When the current sewing needle bar is the needle bar 31 for which the thread is set of the color indicated by the color switching data, the needle bar 31 is not moved at step S11.
The CPU 61 reads out the sewing position data of the M-th pattern data, drives the movement mechanism 11 in accordance with the sewing position data, and moves the embroidery frame 84 to an initial position (step S12). The CPU 61 reads out the stitch data of the M-th pattern data, drives the movement mechanism 11 and the needle bar drive mechanism 32 in accordance with the stitch data, and starts the sewing (step S13). The CPU 61 continues the sewing until the sewing is complete on the basis of the stitch data of the M-th pattern data (no at step S14). When the sewing on the basis of the stitch data of the M-th pattern data is complete and the STOP data has been read out (yes at step S14), the driving of the movement mechanism 11 and the needle bar drive mechanism 32 is stopped (step S15). The CPU 61 displays, on the LCD 7, a message notifying that the sewing on the basis of the M-th pattern data is complete (step S16). The CPU 61 determines whether or not the M-th pattern data is the last pattern data in the sewing order (step S17). When the M-th pattern data is not the last pattern data (no at step S17), the CPU 61 increments M by 1 (step S20), and returns the processing to step S8.
After the sewing is complete on the basis of the first pattern data DC1, when second pattern data DC2 that is next in the sewing order is acquired (step S8) while the movement mechanism 11 and the needle bar drive mechanism 32 are stopped (that is to say during the stop period), the character pattern 52 is displayed in the pattern display field 71 (step S9), as shown by the top right diagram in
The CPU 61 sets, as the mask area 92 representing the sewing range of the character pattern 52, a minimum rectangle encompassing the selected character pattern 52 (step S33). When the sewing position of the character pattern 52 is changed in accordance with the sewing position data dd2 updated at step S32, the CPU 61 determines whether the set mask area 92 extends beyond the sewing area 49 (step S34). When, as shown by the second diagram from the top on the right side in
When the character pattern 52 has been sewn in the initial position on the basis of the second pattern data DC2, while the movement mechanism 11 and the needle bar drive mechanism 32 are stopped (that is to say during the stop period), third pattern data DC3 is acquired (step S8). Here, if all of the plurality of character patterns are selected as a result of the pattern switching key 72 being operated by the user, the character patterns 51 to 55 are displayed while being overlapped with each other in the pattern display field 71, as shown in
When the variable U is not 5 (no at step S25), the CPU 61 performs the above-described processing at step S26. As shown in the diagram second from the top in
When a switching command is received, by an operation of the pattern switching key 72 by the user, in order to switch to a state in which the one particular character pattern is selected, the character pattern 53 is displayed in the pattern display field 71, as shown by the third diagram from the top in
The sewing machine 1 of the above-described embodiment can change the sewing position associated with the pattern to be sewn by the pattern data, while the driving of the movement mechanism 11 and the needle bar drive mechanism 32 is stopped by the processing at step S15 (in other words, during the stop period). It is sufficient for the user to input the change command via the touch panel 8 in order to change the layout of the pattern with respect to the sewing object, after the start of the sewing on the basis of the embroidery data, and the user does not need to change a holding position of the sewing object in relation to the embroidery frame 84. In other words, the sewing machine 1 can simplify an operation to change the layout of the pattern with respect to the sewing object after the start of the sewing on the basis of the embroidery data.
Via the touch panel 8, the sewing machine 1 is configured to receive each of the first command to select one of the target pattern from among the plurality of patterns to be sewn on the basis of the embroidery data to change the sewing position of the one of the target pattern, and the second command to select a plurality of the target patterns from among the plurality of patterns to be sewn on the basis of the embroidery data to change, for each of the plurality of the target pattern, the sewing position associated with the piece of pattern data, via the input portion. When the sewing machine 1 receives the first command as the change command, the sewing machine 1 takes the one piece of pattern data selected in accordance with the first command as the at least one piece of target pattern data, and changes the sewing position associated with the target pattern data (step S32). When the sewing machine 1 receives the second command as the change command, the sewing machine 1 takes, from among the plural pieces of pattern data included in the embroidery data, a plural pieces of selected pattern data corresponding to the plurality of the target patterns selected in accordance with the second command as the at least one piece of target pattern data, and changes, for each of the at least one piece of target pattern data, the sewing position associated with the pattern data, while maintaining relative positional relationships between the plurality of the target patterns (step S24). Thus, the sewing machine 1 can perform the processing in accordance with both the first command and the second command, and in comparison to a sewing machine that can only perform one of the first command and the second command, user convenience can be improved.
When the sewing machine 1 receives the second command as the change command, the sewing machine 1 takes, from among the plural pieces of selected pattern data included in the embroidery data, a plural pieces of pattern data corresponding to the plurality of the target patterns not yet sewn selected in accordance with the second command as the at least one piece of target pattern data (no at step S23), and changes, for each of the at least one pieces of target pattern data, the sewing position associated with the pattern data, while maintaining the relative positional relationships of the not yet sewn plurality of patterns (step S24). Thus, the sewing machine 1 can eliminate the time to change the sewing position of the pattern for which the sewing is complete.
The control portion 60 of the sewing machine 1 identifies the sewing area 49 set for the embroidery frame 84 mounted on the holder 25 (step S2), and changes, for each of the at least one piece of target pattern data, the sewing position associated with the pattern data, in the range in which the pattern that is the target of the change is inside the identified sewing area 49 (step S24, step S28, and step S29; step S32, step S34, and step S35). The sewing machine 1 can avoid a situation in which the target pattern is arranged outside the sewing area 49 and cannot be sewn.
When the sewing area 49 set for the embroidery frame 84 mounted on the holder 25 is identified (step S2) and the plurality of patterns are selected as the patterns that are the target of the change (no at step S21), the control portion 60 of the sewing machine 1 changes, for each of the at least one piece of target pattern data, the sewing position associated with the pattern data in a range in which an area encompassing all of the plurality of patterns is inside the sewing area 49 (step S32, step S34, and step S35). When the plurality of patterns are selected as the target patterns, the sewing machine 1 can avoid a situation in which the target patterns are arranged outside the sewing area 49 and cannot be sewn.
When the sewing position has not been assigned to each of the plural pieces of pattern data included in the embroidery data, the control portion 60 of the sewing machine 1 assigns the predetermined value as the sewing position data to each of the plural pieces of pattern data, and associates, for each of the plural pieces of pattern data, the sewing position with the pattern data (step S5). Thus, the sewing machine 1 can associate the sewing position with each of the plural pieces of pattern data, even when the embroidery data acquired at step S1 is the data in which the sewing position has not been assigned to each of the plural pieces of pattern data.
The sewing machine and the non-transitory computer-readable medium of the present disclosure are not limited to the above-described embodiment, and various modifications may be made insofar as they do not depart from the scope and spirit of the present disclosure. The configuration of the sewing machine 1 may be changed as appropriate. For example, it is sufficient that the sewing machine 1 be provided with one or more of the needle bars 31, and the number, arrangement, and the like of the needle bars 31 may be changed as appropriate. The sewing machine 1 may be a domestic-use embroidery sewing machine, or may be an industrial use sewing machine. It is sufficient that the detector 33 be able to detect the type of the embroidery frame 84 mounted on the holder 25, and may be another device, such as a radio frequency identification device (RFID) or the like. The detector 33 may be omitted as necessary. In addition to the touch panel 8, the input portion may be any type of switch, a voice input device such as a microphone, an ultrasonic input device, or another device, such as an image sensor, a mouse and the like. The sewing machine 1 may be provided with the image sensor, may display an image of the sewing object captured by the image sensor in the pattern display field 71, and may display the pattern based on the embroidery data so as to be overlapped on the image. In this case, the setting of the sewing position of the pattern with respect to the sewing object is easy. A screen layout, items and the like that are displayed when inputting various commands may be changed as appropriate.
The configuration of the embroidery data may be changed as appropriate. An arrangement, inside the embroidery data, of the sewing position data assigned to the embroidery data may be changed as appropriate. The partition data need not necessarily be the STOP data. For example, the partition data may be color switching data. When the stitch data is data representing a relative position in relation to the needle drop position of the preceding stitch, and a first needle drop position included in the stitch data is prescribed in advance, the sewing position may be represented by the first needle drop position included in each of the pattern data. In this case, the CPU 61 does not assign the sewing position data at step S5, and performs the association as information indicating the sewing position as the first needle drop position included in each of the pattern data. At step S24, step S29, step S32, and step S35, the CPU 61 changes the first needle drop position included in the pattern data of the pattern that is the target of the change.
In the sewing processing shown in
A reference point of the sewing position relating to the pattern data may be changed as appropriate. For example, the reference point of the sewing position may be a position of any one of four vertices of the rectangular mask area of the pattern represented by the pattern data with respect to any one of four vertices of the rectangular sewing area. The shape and size of the sewing area and the mask area may be changed as appropriate. A method of identifying the sewing area may be changed as appropriate. For example, the sewing area may be defined by a value input via the input portion (the touch panel 8) by the user. The sewing machine 1 may receive an editing command, such as a command to change the size of or rotate the pattern to be sewn in accordance with the pattern data, after the start of sewing on the basis of the embroidery data, and may change the pattern data in accordance with the editing command. In this case, a method of changing the pattern data may be performed in accordance with a known method. The CPU 61 may receive the change command before starting the sewing of the first pattern on the basis of the embroidery data, or need not necessarily receive the change command.
The control portion 60 may be able to receive only one of the first command and the second command. When the control portion 60 is only able to receive the second command, it is sufficient that the patterns that are the target of the change instructed by the second command are a plurality of the patterns, and they may be all or some of the patterns to be sewn in accordance with the embroidery data. When the control portion 60 acquires the second command, the control portion 60 need not necessarily change, for each of the at least one piece of target pattern data, the sewing position associated with the pattern data of the corresponding pattern while maintaining the relative positional relationships between the plurality of patterns. In this case, for example, the control portion 60 may receive a change command for the arrangement and the like, such as centering, right-aligning, left-aligning and equal spacing, and may change the sewing position in accordance with the received change command. When the control portion 60 receives the second command, with respect to all of the plurality of patterns selected, including the already sewn patterns, the control portion 60 may change, for each of the at least one piece of target pattern data, the sewing positions associated with the pattern data, while maintaining the relative positional relationships between the plurality of patterns, or without maintaining the relative positional relationships between the plurality of patterns.
The control portion 60 may receive the change command in the range in which the pattern that is the target of the change is inside the identified sewing area. When the plurality of the target patterns are selected, the control portion 60 may change the sewing position associated with the pattern data such that the sewing position is inside the sewing area, only for the pattern that is not inside the sewing area when the sewing position is changed in accordance with the second command, and may change the sewing position associated with the pattern data in accordance with the second command for the other patterns.
The apparatus and methods described above with reference to the various embodiments are merely examples. It goes without saying that they are not confined to the depicted embodiments. While various features have been described in conjunction with the examples outlined above, various alternatives, modifications, variations, and/or improvements of those features and/or examples may be possible. Accordingly, the examples, as set forth above, are intended to be illustrative. Various changes may be made without departing from the broad spirit and scope of the underlying principles.
Number | Date | Country | Kind |
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JP2017-036646 | Feb 2017 | JP | national |
This application is a continuation application of International Application No. PCT/JP2017/030297, filed Aug. 24, 2017, which claims priority from Japanese Patent Application No. 2017-036646, filed on Feb. 28, 2017. The disclosure of the foregoing application is hereby incorporated by reference in its entirety.
Number | Name | Date | Kind |
---|---|---|---|
6000350 | Koike | Dec 1999 | A |
6167822 | Miyasako | Jan 2001 | B1 |
8539893 | Tokura | Sep 2013 | B2 |
8584607 | Tokura | Nov 2013 | B2 |
20100242817 | Tokura | Sep 2010 | A1 |
20110056419 | Taguchi | Mar 2011 | A1 |
20150259841 | Ihira et al. | Sep 2015 | A1 |
20170175314 | Suzuki et al. | Jun 2017 | A1 |
Number | Date | Country |
---|---|---|
H05-123471 | May 1993 | JP |
2009-201537 | Sep 2009 | JP |
2010-246885 | Nov 2010 | JP |
2011-055945 | Mar 2011 | JP |
2015-173876 | Oct 2015 | JP |
2016-063882 | Apr 2016 | JP |
2017-109000 | Jun 2017 | JP |
Entry |
---|
Oct. 17, 2017 International Search Report issued in International Application No. PCT/JP2017/030297. |
Number | Date | Country | |
---|---|---|---|
20190368096 A1 | Dec 2019 | US |
Number | Date | Country | |
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Parent | PCT/JP2017/030297 | Aug 2017 | US |
Child | 16541486 | US |