The present disclosure relates to a sewing machine that sews a pattern on a sewing object.
A cutting device is known that creates a sheet material on which decorative components, such as rhinestones or the like, are arranged. The cutting device cuts the sheet material in accordance with cutting data, and can form a plurality of holes in which the rhinestones are arranged. The rhinestones arranged in each of the holes of the sheet material are adhered to a transfer sheet and removed from the sheet material, and are arranged on a cloth or the like while maintaining their mutual positional relationships. A hot melt layer is provided on a rear surface of each of the rhinestones and the rhinestones are bonded and fixed to the cloth using an iron or the like.
When rhinestones are fixed onto a cloth on which a pattern, such as embroidery, has been sewn, there is a case in which it is difficult to determine overall positioning while aligning positions of each of the plurality of rhinestones adhered to the transfer sheet with the pattern.
Various embodiments of the broad principles derived herein provide a sewing machine that is capable of easily determining positions of a pattern sewn on a sewing object and of decorative components arranged on the sewing object.
Embodiments provide a sewing machine that includes a sewing portion, a processor, and a memory. The sewing portion is configured to sew a pattern on a sewing object. The memory storing computer-readable instructions that, when executed by the processor, perform the processes. The processes include acquiring reference data representing a relative positional relationship between a sewing position and an arrangement position. The sewing position is a position of the pattern sewn on the sewing object by the sewing portion. The arrangement position is a position of a decorative component arranged on the sewing object. The processes include the displaying, on the basis of the acquired reference data, a mark that indicates the arrangement position corresponding to the sewing position.
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. The present embodiment is an example of a case in which the present disclosure is applied to a sewing machine that sews a pattern on a sewing object (a processing cloth, for example). The pattern according to the present embodiment refers to an embroidery pattern sewn on the basis of embroidery data. The embroidery pattern is, for example, a pattern of characters and graphics etc. formed using embroidery.
First, a physical configuration of a sewing machine 1 will be explained with reference to
As shown in
As shown in
A lower shaft (not shown in the drawings) is provided inside the bed portion 2. The lower shaft is driven to rotate by a drive shaft (not shown in the drawings) that will be described later. In the inside of the bed portion 2 below the needle plate 21, a feed mechanism (not shown in the drawings), a shuttle mechanism 22 (refer to
As shown in
The sewing machine 1 can be connected to a known personal computer (hereinafter referred to as a “PC”) 10, via a USB cable 12 that is connected to the USB connector. In marking processing that will be described later, the sewing machine 1 sews the embroidery pattern on the processing cloth 73 on the basis of embroidery data received from the PC 10, and displays a mark 60 (refer to
An openable/closable cover 41 is provided on the upper portion of the arm portion 4. Note that in
As shown in
The image sensor 56 is, for example, a known complementary metal oxide semiconductor (CMOS) image sensor. The image sensor 56 is fixed to a machine casing (not shown in the drawings) of the sewing machine 1 on the lower portion of the head portion 5. The image sensor 56 captures an image of a predetermined range, and outputs corresponding image data. The output image data is stored in a predetermined storage area of a RAM 83 (refer to
Note that, in the present embodiment, a coordinate system of a captured image represented by the image data created by the image sensor 56 is associated, in advance, with an entire space coordinate system (hereinafter also referred to as a “world coordinate system”), using parameters stored in a flash memory 84. Further, a unique XY coordinate system (an embroidery coordinate system) over which the embroidery frame 7 is transported by the transport mechanism 6 (to be described later) is also associated in advance with the world coordinate system, using the parameters stored in the flash memory 84. Thus, on the basis of the image data, the sewing machine 1 can perform processing that indicates coordinates of the embroidery coordinate system. As a result, the sewing machine 1 can indicate a position of the embroidery pattern to be sewn on the processing cloth 73, from the captured image.
The irradiation mechanism 57 displays the light mark (hereinafter referred to as the “mark”) 60 (refer to
Note that, in the present embodiment, a coordinate system (an irradiation coordinate system) of an irradiation position of the red light irradiated by the irradiation mechanism 57 is associated, in advance, with the world coordinate system, using parameters stored in the flash memory 84. Thus, the sewing machine 1 can irradiate the red light in alignment with the position of the embroidery pattern that has been sewn on the processing cloth 73, and can display the mark 60 on the processing cloth 73. Further, in the state in which the transport mechanism 6 is not mounted on the sewing machine 1, the mark 60 can also be used as a reference for position alignment of the processing cloth 73 when the practical-use pattern or the decorative pattern is sewn.
As shown in
An X-axis transport mechanism that is not shown in the drawings and an X-axis motor 65 (refer to
An electrical configuration of the sewing machine 1 will be explained with reference to
The CPU 81 performs main control of the sewing machine 1 and executes various arithmetic calculations and processing related to sewing, in accordance with various programs stored in the ROM 82. Although not shown in the drawings, the ROM 82 is provided with a plurality of storage areas including a program storage area. The various programs used to operate the sewing machine 1 are stored in the program storage area. The stored programs include, for example, a program for the marking processing (to be described later) and the like. Storage areas are provided as necessary in the RAM 83 that store arithmetic calculation results resulting from arithmetic calculation processing by the CPU 81. The various parameters used to execute the various processing by the sewing machine 1 are stored in the flash memory 84. The parameters that associate the above-described embroidery coordinate system, irradiation coordinate system, and world coordinate system with each other are also stored in the flash memory 84. The USB interface 85 is an interface to connect the sewing machine 1 and the PC 10 via the USB cable 12. As described above, the PC 10 is connected to the cutting device 11 via the USB cable 13.
Drive circuits 91 to 97, an operation switch 42, the touch panel 32, and the image sensor 56 are connected to the I/O interface 87. The drive circuit 91 is connected to the sewing machine motor 33, and drives the sewing machine motor 33 in accordance with control signals from the CPU 81. The drive circuit 92 drives the LCD 31 in accordance with control signals from the CPU 81, and causes images, operation screens and the like to be displayed on the LCD 31. The touch panel 32 provided on the front surface side of the LCD 31 outputs, to the CPU 81, coordinate data representing an input position of an operation using a finger or a dedicated touch pen etc. On the basis of the coordinate data acquired from the touch panel 32, the CPU 81 recognizes an item selected on the operation screen displayed on the LCD 31, and executes corresponding processing. The operation switch 42 receives, separately from the touch panel 32, input of an operation on the sewing machine 1, and outputs the received input to the CPU 81. For example, when input of an operation on the start/stop switch is received, the CPU 81 outputs a control signal to start or stop a sewing operation.
The drive circuit 93 is connected to the up-and-down movement motor 50, and drives the up-and-down movement motor 50 in accordance with control signals from the CPU 81. The presser bar 53 moves up and down in accordance with the driving of the up-and-down movement motor 50. The drive circuit 94 is connected to the X-axis motor 65 and drives the X-axis motor 65 in accordance with control signals from the CPU 81. The drive circuit 95 is connected to the Y-axis motor 64, and drives the Y-axis motor 64 in accordance with control signals from the CPU 81. In accordance with the driving of the X-axis motor 65 and the Y-axis motor 64, the embroidery frame 7 is transported in the left-right direction (the X-axis direction) and the front-rear direction (the Y-axis direction) by a movement amount depending on the control signal. The image sensor 56 outputs the image data generated by the image capture of the image capture range. The drive circuit 96 is connected to the movement motor 58 and drives the movement motor 58 in accordance with control signals from the CPU 81. The drive circuit 97 is connected to the laser emitter 59 and causes the laser emitter 59 to emit the red light in accordance with control signals from the CPU 81. The emission direction of the red light from the laser emitter 59 is changed in accordance with the driving of the movement motor 58.
The operations of the sewing machine 1 will be briefly explained. During the embroidery sewing, the CPU 81 of the sewing machine 1 controls the driving of the sewing machine motor 33, and the driving of the X-axis motor 65 and the Y-axis motor 64 of the transport mechanism 6, on the basis of the embroidery data acquired from the PC 10. The needle bar up-and-down movement mechanism 55 and the shuttle mechanism 22 are driven at the same time that the embroidery frame 7 is transported in the left-right direction (the X-axis direction) and the front-rear direction (the Y-axis direction) by the transport mechanism 6. In this way, the embroidery pattern is sewn on the processing cloth 73 clamped by the embroidery frame 7 by the sewing needle 52 mounted on the needle bar 51. Meanwhile, when the normal practical-use pattern or decorative pattern that is not the embroidery pattern is to be sewn, the transport mechanism 6 is removed from the bed portion 2. The CPU 81 of the sewing machine 1 controls the driving of the sewing machine motor 33 on the basis of input of an operation received by the operation switch 42 or the like. The needle bar up-and-down movement mechanism 55 and the shuttle mechanism 22 are driven at the same time that the processing cloth 73 placed on the bed portion 2 is transported by the feed mechanism. In this way, the practical-use pattern or the decorative pattern is sewn on the processing cloth 73 on top of the bed portion 2, by the sewing needle 52 mounted on the needle bar 51. Note that the practical-use pattern or the decorative pattern may be sewn on the processing cloth 73 on the basis of embroidery data received from the PC 10 or embroidery data stored in advance in the flash memory 84, by driving a needle bar swinging mechanism (not shown in the drawings) of a known configuration.
In the present embodiment, as shown in
In creating the decorated pattern 17, the plurality of decorative components 16 are aligned in advance in an arrangement relationship that accords with the embroidery pattern 15, using the holding body 18 machined by the cutting device 11. The plurality of decorative components 16 are arranged on the processing cloth 73 on which the embroidery pattern 15 has been formed, in a state in which the mutual positional relationships of the decorative components 16 are maintained. The decorative components 16 of the present embodiment are, for example, rhinestones. The mutual positions of the plurality of rhinestones are determined by the rhinestones being respectively held in the plurality of hole portions 19 (refer to
In addition, in the creation of the decorated pattern 17, each of the plurality of decorative components 16 is arranged on the processing cloth 73 in alignment with the mark 60 displayed on the processing cloth 73, in the state in which the mutual positional relationships between the decorative components 16 are maintained. As a result, each of the plurality of decorative components 16 is arranged in the arrangement positions corresponding to a sewing position of the embroidery pattern 15. When the user arranges the decorative components 16 while aligning their positions with the embroidery pattern 15, the sewing machine 1 displays the mark 60 on the processing cloth 73 to act as a position aligning reference, on the basis of the reference data. For example, the CPU of the PC 10 executes the predetermined application and creates the reference data on the basis of the embroidery data and the formation data. The CPU of the PC 10 associates the formation data with the embroidery data, and identifies the coordinate data of the embroidery coordinate system from the coordinate data, of the formation coordinate system, of the arrangement positions of the decorative components 16. The formation data includes the first formation data and the second formation data. The reference data includes, on the basis of the first formation data, the coordinate data of the embroidery coordinate system representing the arrangement position of each of the decorative components 16. The reference data further includes, on the basis of the second formation data, the coordinate data representing the characteristic arrangement positions of the decorative components 16, namely, the arrangement positions of the decorative components 16A and 16B. The characteristic arrangement positions of the decorative components 16 are positions having characteristics that allow easy identification of those decorative components 16 from among the plurality of decorative components 16. For example, the characteristic arrangement position may be the arrangement position of the decorative component 16 positioned at the end of a group of the decorative components 16, or may be the arrangement position of the decorative component 16 that is detached from the group of the decorative components 16. Alternatively, the characteristic arrangement position may be the arrangement position of the decorative component 16 positioned on a change point at which, on a straight line or a curved line that virtually joins the adjacent decorative components 16, a direction along which the decorative components 16 follow that straight line or curved line suddenly changes. In the decorated pattern 17 shown in
As shown in
In a state in which the decorative components 16 are arranged in all of the hole portions 19, and the mutual positions between the decorative components 16 have been determined, a transfer sheet 20 is arranged on the holding body 18 (a process C). An adhesive is applied to the bottom surface of the transfer sheet 20. When the transfer sheet 20 is peeled off from the holding body 18, the transfer sheet 20 separates from the holding body 18 in a state in which the decorative components 16 are adhered to the bottom surface of the transfer sheet 20 (a process D). The transfer sheet 20 is arranged on the processing cloth 73 on which the embroidery pattern 15 has been created by the sewing machine 1 on the basis of the embroidery data (a process E). The arrangement positions on the processing cloth 73 of the decorative components 16 held by being adhered to the transfer sheet 20, and the position alignment with the sewing position of the embroidery pattern 15 sewn on the processing cloth 73 will be described later. Heat treatment using an iron or the like is carried out on the processing cloth 73 on which the transfer sheet 20 has been arranged (a process F). An adhesive having thermoplasticity is applied to the bottom surface of each of the decorative components 16. The bottom surface of the decorative component 16 sticks firmly to the surface of the processing cloth 73 due to the adhesive. The transfer sheet 20 is removed from the processing cloth 73 (a process G). The user can obtain the processing cloth 73 on which the decorated pattern 17 is formed by combining the embroidery pattern 15 and the decorative components 16.
In the above-described manner, in the process E in which the transfer sheet 20 is arranged on the processing cloth 73, it is necessary for the user to align the sewing position of the embroidery pattern 15 with the arrangement positions of the decorative components 16. The sewing machine 1 of the present embodiment performs the marking processing in which the mark 60 is displayed to indicate the arrangement positions corresponding to the sewing position after the embroidery pattern 15 has been sewn. In this way, the sewing machine 1 can indicate, using the mark 60, the characteristic arrangement positions of the decorative components 16. The user can determine the positions of the decorative components 16 to be arranged in the characteristic arrangement positions on the basis of the mark 60, and can arrange the decorative components 16 on the processing cloth 73. As a result, the user can easily align the positions of the embroidery pattern 15 and all of the decorative components 16.
Hereinafter, the marking processing will be explained with reference to
The CPU of the PC 10 creates the embroidery data, the formation data, and the reference data on the basis of operations by the user. The CPU of the PC 10 transmits the formation data to the cutting device 11. When the cutting device 11 has received the formation data, the cutting device 11 forms the plurality of hole portions 19 in the holding body 18, as described above, in order to determine the mutual positions between the plurality of decorative components 16. Further, the CPU of the PC 10 transmits the embroidery data and the reference data to the sewing machine 1. Note that, when the embroidery pattern 15 is created on the processing cloth 73 but the decorated pattern 17 is not to be created, the reference data is not created, and the CPU of the PC 10 transmits the embroidery data to the sewing machine 1.
When the CPU 81 of the sewing machine 1 receives the embroidery data, or the embroidery data and the reference data from the PC 10, the CPU 81 stores the data in the RAM 83 (step S1). The CPU 81 displays, on the LCD 31, a command to mount the embroidery frame 7 clamping the processing cloth 73 onto the frame holder 63 of the carriage 62. When the user has mounted the embroidery frame 7 onto the frame holder 63 in accordance with the message displayed on the LCD 31, the user operates the touch panel 32 and performs an input notifying the start of sewing. The CPU 81 drives the X-axis motor 65 and the Y-axis motor 64, and uses the transport mechanism 6 to transport the embroidery frame 7 to the home position (refer to
The CPU 81 drives the up-and-down movement motor 50, lowers the presser bar 53, and causes the presser foot 53A to come into contact with the processing cloth 73 (step S5). While transporting the embroidery frame 7 in accordance with the embroidery data, the CPU 81 drives the sewing machine motor 33 and thus drives the needle bar up-and-down movement mechanism 55 and the shuttle mechanism 22. The embroidery pattern 15 is sewn on the processing cloth 73 clamped by the embroidery frame 7 (step S7).
When the sewing processing on the basis of the embroidery data is complete, the CPU 81 determines whether or not the reference data associated with the embroidery data used in the sewing processing is stored in the RAM 83 (step S9). When the embroidery data created in the PC 10 is not used to form the decorated pattern 17 and the reference data is not stored in the RAM 83 (no at step S9), the CPU 81 ends the marking processing. The user operates the up-down lever 54 and raises the presser bar 53, thus separating the presser foot 53A from the processing cloth 73. The user removes the embroidery frame 7 from the transport mechanism 6, and removes the processing cloth 73 from the embroidery frame 7, thus obtaining the processing cloth 73 on which the embroidery pattern 15 is formed.
When the reference data is stored in the RAM 83 (yes at step S9), the CPU 81 drives the up-and-down movement motor 50, raises the presser bar 53, and separates the presser foot 53A from the processing cloth 73 (step S11). The CPU 81 drives the X-axis motor 65 and the Y-axis motor 64, and causes the embroidery frame 7 to be transported to the retracted position (refer to
While driving the laser emitter 59 and causing the red light to be emitted, the CPU 81 drives the movement motor 58 in accordance with the reference data and adjusts the emission direction and the length in the front-rear direction of the red light. As described above, the reference data represents the coordinate data of the decorative components 16A and 16B, which have the characteristic arrangement positions. As shown in
As shown in
When the user has completed the arrangement of the decorative components 16, the user operates the touch panel 32 and performs an operation notifying that the arrangement is complete. When the CPU 81 receives the input of the operation notifying that the arrangement is complete (yes at step S17), the CPU 81 ends the display of the mark 60 by the irradiation mechanism 57 (step S19), thus ending the marking processing. The user removes the embroidery frame 7 from the transport mechanism 6, and removes the processing cloth 73 on which the transfer sheet 20 has been arranged from the embroidery frame 7. The user carries out the heat treatment (the process F) using the iron or the like, and causes the decorative components 16 to firmly stick to the processing cloth 73. The user removes the transfer sheet 20 (the process G), and thus obtains the processing cloth 73 on which the decorated pattern 17 is formed.
As described above, according to the sewing machine 1 of the present embodiment, when the decorative components 16 are to be arranged on the processing cloth 73, the user can easily obtain the correct positional relationships of the arrangement positions of the decorative components 16 with respect to the sewing position of the embroidery pattern 15, simply by arranging the decorative components 16A and 16B adhered to the transfer sheet 20 at the arrangement positions 15A and 15B indicated by the mark 60.
Further, since the formation positions of the hole portions 19 in the holding body 18 formed on the basis of the formation data and the sewing position of the embroidery pattern 15 sewn on the basis of the embroidery data have a correct positional relationship, the user can easily arrange the decorative components 16 whose positions have been determined by the holding body 18, in the correct positions with respect to the sewing position of the embroidery pattern 15.
In addition, the user can easily arrange all of the decorative components 16 in the correct positions with respect to the sewing position of the embroidery pattern 15, simply by arranging the two decorative components 16A and 16B in the positions aligned with the end portions 60A and 60B at both sides of the mark 60.
Furthermore, the user can easily arrange the decorative components 16 in the correct positions, simply by arranging the decorative components 16 on the processing cloth 73 in alignment with the mark 60 displayed by the irradiation shape of the light.
It should be noted that the present disclosure is not limited to the above-described embodiment, and various modifications can be added. The above-described marking processing (refer to
According to a first modified example of the present disclosure, in the marking processing, for example, the CPU 81 may superimpose, on the image of the embroidery pattern 15 captured by the image sensor 56, a mark image indicating positions corresponding to the arrangement positions 15A and 15B, and may display the mark image superimposed on the image of the embroidery pattern 15 on the LCD 31. For example, as shown in
The user conveys the transfer sheet 20, to the bottom surface of which the plurality of decorative components 16 have been adhered in the process D (refer to
In this way, the user can easily arrange the decorative components 16 in the correct positions, simply by arranging the decorative components 16 on the processing cloth 73 in alignment with the mark image while looking at the display on the LCD 31.
It should be noted that, in the first modified example, in the processing at step S14, in place of the image captured of the embroidery pattern 15, the CPU 81 may create an image indicating the sewing position of the embroidery pattern 15 on the basis of the embroidery data, and may display that image on the LCD 31. In this case, in the processing at step S16, the CPU 81 may display the mark image indicating the positions corresponding to the arrangement positions 15A and 15B of the respective decorative components 16A and 16B, superimposed on the image indicating the sewing position. For example, even when the transfer sheet 20 is a non-transparent sheet and the image of the embroidery pattern 15 cannot be captured via the transfer sheet 20, the CPU 81 can display the mark image and the image indicating the sewing position superimposed on the captured image of the transfer sheet 20.
Further, according to a second modified example of the present disclosure, in the marking processing, the CPU 81 may, for example, sew stitches 151 to 153 on a processing cloth 173, which act as markers to indicate arrangement positions of decorative components 161 to 163. For example, as shown in
The CPU of the PC 10 creates reference data, which represents coordinates of positions at which the stitches 151 to 153 that act as the markers are to be sewn and which correspond to the formation positions of the second hole portions 191 to 193, and embroidery data used to sew the embroidery pattern 115, and transmits the data to the sewing machine 1. The CPU 81 of the sewing machine 1 receives the embroidery data and the reference data. The CPU 81 sends an instruction to sew the embroidery pattern 115 on the processing cloth 173 on the basis of the embroidery data. The CPU 81 further sends an instruction to sew each of the stitches 151 to 153 on the processing cloth 173 on the basis of the reference data. In this way, the markers to indicate the arrangement positions of the decorative components 161 to 163 are formed on the processing cloth 173. Note that it is preferable for the stitches 151 to 153 to be sewn in a pattern that can be easily undone from the processing cloth 173 after completion of the decorated pattern. For example, sewing is conceivable in which a distance between the needle drop points is maintained to be larger than an outer diameter of the decorative components and so on, so that the user can easily cut the pattern using scissors or the like.
In the process D, the user adheres the decorative components 116 and 161 to 163 held by the first hole portions 119 and the second hole portions 191 to 193 of the holding body 118 onto a transfer sheet 120. In the process E, the user arranges the transfer sheet 120 on the processing cloth 173 such that the decorative components 161 to 163 are placed on the stitches 151 to 153, respectively. In the process F, the user carries out the heat treatment on the decorative components 116 such that the decorative components 161 to 163 are not heated. In the process G, when removing the transfer sheet 120, the user can recover the decorative components 161 to 163 that are not firmly stuck to the processing cloth 173. The user uses scissors or the like to undo the stitches 151 to 153, and can thus obtain the processing cloth 173 on which only the decorative components 116 are firmly stuck to the processing cloth 173 and on which the decorated pattern is formed in combination with the embroidery pattern 115.
In this way, the user can easily arrange the decorative components 116 in the correct positions on the processing cloth 173, simply by arranging the decorative components 161 to 163 in alignment with the stitches 151 to 153 that act as the markers.
Further, the sewing machine 1 can use the arrangement positions corresponding to the second hole portions 191 to 193, which differ from the first hole portions 119 used to arrange the decorative components 116 corresponding to the embroidery pattern 115, to determine the positions of the decorative components 161 to 163. As a result, the user can simply arrange the decorative components 161 to 163 corresponding to the second hole portions 191 to 193 in alignment with the stitches 151 to 153, irrespective of the overall shape formed by the decorative components 116. In this way, the user can easily arrange all of the decorative components 116 in the correct positions with respect to the sewing position of the embroidery pattern 115.
In addition, the formation positions of the second hole portions 191 to 193 are positioned outside the minimum rectangular area R that includes all the formation positions of the first hole portions 119. Thus, the user easily arranges the decorative components 161 to 163 corresponding to the second hole portions 191 to 193 in alignment with the stitches 151 to 153. As a result, the user can easily arrange all of the decorative components 116 in the correct positions with respect to the sewing position of the embroidery pattern 115. Further, the decorative components 116 corresponding to the first hole portions 119 are arranged away from the decorative components 161 to 163 corresponding to the second hole portions 191 to 193. Thus, the user easily performs the operation to firmly stick the decorative components 116 corresponding to the first hole portions 119 onto the processing cloth 173 by the heat treatment using the iron or the like.
In the second modified example, the stitches 151 to 153 may be formed in a cross shape, for example, and it is sufficient that the stitches 151 to 153 can be used to indicate the arrangement positions of the decorative components 161 to 163. Further, in the second modified example, the stitches 151 to 153 may be sewn that have a bottom surface area larger than that of each of the decorative components 161 to 163, and that can completely cover the bottom surface of each of the decorative components 161 to 163, and may display the stitches 151 to 153 as the markers. In this case, in the process F, the user may carry out the heat treatment on the decorative components 116 including the decorative components 161 to 163. As a result of the heat treatment, the bottom surfaces of the decorative components 116 are firmly stuck to the surface of the processing cloth 173. Further, the bottom surfaces of the decorative components 161 to 163 are firmly stuck to the stitches 151 to 153, respectively. Thus, by undoing the stitches 151 to 153, the user can remove the decorative components 161 to 163 from the processing cloth 173 along with the stitches 151 to 153.
According to a third modified example of the present disclosure, the sewing machine 1 may be provided with a formation portion that can form the hole portions 19 in the holding body 18. For example, as shown in
The cutting needle device 211 is fixed to the needle bar 51 by the attachment portion 214 being fixed to the needle bar 51 on which the sewing needle 52 is not mounted. In the state in which the cutting needle device 211 is fixed to the needle bar 51, a position of a center axis Y of the cutting needle 212 is a position that is offset, by a predetermined distance to the front, with respect to a position of a center axis X of the needle bar 51. Thus, the home position of the formation coordinate system of the formation data may be set as a position that is displaced from the home position of the embroidery coordinate system of the embroidery data by a distance corresponding to the offset.
When forming the hole portions 19 in the holding body 18, the user fixes the cutting needle device 211 to the needle bar 51, and attaches the holding body 18 to the frame holder 63 of the transport mechanism 6, via an attachment component, for example. The CPU 81 of the sewing machine 1 drives the X-axis motor 65 and the Y-axis motor 64 on the basis of the formation data, and transports the holding body 18 using the transport mechanism 6. Further, in line with the above-described transportation, the CPU 81 of the sewing machine 1 drives the sewing machine motor 33 on the basis of the formation data, and moves the needle bar 51, to which the cutting needle device 211 is fixed, up and down. As a result, the cutting needle 212 can cut the holding body 18 and create a plurality of circular notches, and can thus form the plurality of hole portions 19. It should be noted that the cutting needle 212 may have, for example, a punch-shaped blade tip that can form the hole portion 19 having a diameter slightly larger than the outer diameter of the decorative component 16. In this way, after forming the hole portions 19 in the holding body 18 using the cutting needle device 211 and mounting the sewing needle 52 on the needle bar 51 by the user, the CPU 81 may perform the marking processing in a similar manner to the above-described embodiment.
In this way, the sewing machine 1 forms the hole portions 19 by forming openings rather than by forming recessed portions in the holding body 18, using the cutting needle 212 of the cutting needle device 211, and it is thus easy to adjust an amount of pressure required to form the hole portions.
According to a fourth modified example of the present disclosure, characteristic decorative components used for reference data are not limited to two, and may be three or more. In this case, the CPU of the PC 10 may determine positions of the formation positions of the hole portions 19 formed in the holding body 18 corresponding to arrangement positions of the three or more decorative components such that a polygonal shape (a triangle in the case of three characteristic decorative components), for which each of the formation positions is an apex, is a non-equilateral polygonal shape (a non-equilateral triangle in the case of the three characteristic decorative components). With this configuration, when determining the arrangement positions of the characteristic decorative components on the basis of the mark 60, the user can easily identify an orientation of the decorative components 16 in a plane direction.
Further, according to a fifth modified example of the present disclosure, the CPU 81 of the sewing machine 1 may execute a program similar to the application executed by the CPU of the PC 10, and may create embroidery data, formation data and reference data. For example, the CPU 81 displays, on the LCD 31, an image showing the embroidery pattern 15, receives operation of the touch panel 32 by the user, and edits the shape of the embroidery pattern 15. On the basis of editing results, the CPU 81 may create the embroidery data to form the embroidery pattern 15. Further, the CPU 81 displays an image showing the decorative components 16 on the LCD 31, receives operation of the touch panel 32 by the user, and determines the positional relationships between the decorative components 16. The CPU 81 may create the formation data used to form the hole portions 19 in the holding body 18, on the basis of the positional relationships between the decorative components 16. The CPU 81 may further create the reference data on the basis of sewing data and the formation data, in a similar manner to the above-described embodiment. Further, the sewing machine 1 may be connected to the cutting device 11 via a USB cable and may transmit the formation data to the cutting device 11. Alternatively, as in the above-described third modified example, the sewing machine 1 may cause the cutting needle device 211 to be mounted on the needle bar 51 and may form the hole portions 19 in the holding body 18 on the basis of the formation data.
According to a sixth modified example of the present disclosure, the irradiation mechanism 57 may be able to form a cross mark, for example, rather than simply forming the linear mark 60 that is formed by spreading the red light in the front-rear direction.
Further, in the above-described embodiment, the rhinestones are given as the example of the decorative components 16, but the decorative components 16 are not limited to the rhinestones. For example, applique or emblems may be applied to the present disclosure as the decorative components 16, which may be studs (iron on studs) that can be adhered to a cloth or the like by heating using an iron or the like, may be lace (lace applique) or may be a transfer sheet (an iron print sheet) or the like. Further, the decorative components 16 need not necessarily be adhered to the processing cloth 73 using the iron or the like. For example, the decorative components 16 may simply be held on the processing cloth 73 using surface fasteners or the like. Alternatively, the decorative components 16 may be positioned on the embroidery pattern 15 using the present disclosure, and may be fixed to the processing cloth 73 using hot bond or the like. Alternatively, beads or buttons etc. may be adopted as the decorative components 16 and positioned on the embroidery pattern 15 using the present disclosure. After that, the beads or buttons etc. may be sewn onto and thus fixed to the processing cloth 73. Further, the number of the decorative components 16 is not limited to the plurality.
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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2015-020795 | Feb 2015 | JP | national |
This application is a continuation application of International Application No. PCT/JP2016/051661, filed Jan. 21, 2016, which claims priority from Japanese Patent Application No. 2015-020795, filed on Feb. 5, 2015. The disclosure of the foregoing application is hereby incorporated by reference in its entirety.
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2011-055887 | Mar 2011 | JP |
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Entry |
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International Search Report issued in the corresponding International Application No. PCT/JP2016/051661 dated Apr. 5, 2016. |
International Preliminary Report on Patentability issued in the corresponding International Application No. PCT/JP2016/051661 dated Aug. 8, 2017. |
Number | Date | Country | |
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20170183799 A1 | Jun 2017 | US |
Number | Date | Country | |
---|---|---|---|
Parent | PCT/JP2016/051661 | Jan 2016 | US |
Child | 15460287 | US |