CN114657717A

CN114657717A - Gold sheet lamination embroidering method, device, equipment and medium

Info

Publication number: CN114657717A
Application number: CN202210268438.2A
Authority: CN
Inventors: 闫伟; 付小根; 李长昕; 刘建
Original assignee: Zhejiang Dahao Technology Co ltd; Beijing Dahao Technology Co Ltd
Current assignee: Zhejiang Dahao Technology Co ltd; Beijing Dahao Technology Co Ltd
Priority date: 2022-03-18
Filing date: 2022-03-18
Publication date: 2022-06-24
Anticipated expiration: 2042-03-18
Also published as: CN114657717B

Abstract

The application provides a sequin lamination embroidering method, a sequin lamination embroidering device, sequin lamination embroidering equipment and sequin lamination embroidering media. And reading the data of the preset number of bytes again according to the stitch identification and the identification of the embroidering method, and embroidering one stitch according to the data of the preset number of bytes and the data of five bytes. According to the scheme, the embroidery machine reads the data corresponding to the lamination embroidery in the pattern data and performs embroidery according to the data, so that the lamination embroidery of 2 to 16 laminations of 16 kinds of sequins and the lamination embroidery of 2 laminations, 3 laminations and 4 laminations of 63 kinds of sequins can be realized.

Description

Gold sheet lamination embroidering method, device, equipment and medium

Technical Field

The application relates to the field of embroidery machines, in particular to a gold sheet lamination embroidery method, a gold sheet lamination embroidery device, gold sheet lamination embroidery equipment and a gold sheet lamination embroidery medium.

Background

With the development of science and technology and the improvement of living standard of people, people put higher demands on patterns on textiles such as clothes and the like. In order to meet the requirements of people, particularly the requirements of people on gold sheets, the types of gold sheets produced by manufacturers are more and more, and the types of embroidery machines for performing lamination embroidery on the gold sheets are more and more.

In the prior art, in order to realize the lamination embroidery of the sequins, pattern data needs to be input in an embroidery machine firstly, in the pattern data, the lamination embroidery of the sequins at one position is composed of 6 bytes, and only the lamination embroidery of 2 laminations, 3 laminations and 4 laminations of 8 sequins can be realized, and the embroidery machine carries out the lamination embroidery of the sequins when the data of the 6 bytes is read.

In summary, the existing gold lamination embroidery method can only realize 8 kinds of gold 2-lamination, 3-lamination and 4-lamination embroidery, and at present, no scheme can realize 16 kinds of gold 2-16 lamination embroidery and 63 kinds of gold 2-lamination, 3-lamination and 4-lamination embroidery.

Disclosure of Invention

The embodiment of the application provides a gold sheet lamination embroidering method, a gold sheet lamination embroidering device, gold sheet lamination embroidering equipment and a gold sheet lamination embroidering medium, which are used for solving the problem.

In a first aspect, an embodiment of the present application provides a lamination embroidering method for gold sheets, which is applied to an embroidering machine, and the method includes:

acquiring pattern data input by a user, wherein the pattern data comprises data of a plurality of bytes;

in the embroidering process, sequentially reading data in the pattern data according to the byte sequence;

when the read byte data is the position data identification, reading five bytes of data at one time, wherein the five bytes sequentially represent the abscissa of the position to be embroidered, the ordinate of the position to be embroidered, the stitch identification, the identification of the embroidering method and the first part of data required by the embroidering method; wherein the stitch mark is a mark embroidered by a special stitch or a mark embroidered by a common stitch;

if the stitch identification is an identification embroidered by a special stitch and the identification of the embroidery method indicates that the embroidery method is the lamination embroidery of gold sheets, continuously reading the data of a preset number of bytes at one time;

and embroidering by a needle according to the five bytes of data and the preset number of bytes of data.

In one embodiment, if the stitch identifier is an identifier for special stitch embroidery and the identifier of the embroidery method indicates that the embroidery method is a lamination embroidery of gold pieces, the reading of the data of the preset number of bytes at one time includes:

if the stitch mark is a mark for special stitch embroidery, and the mark for the embroidery method specifically indicates the lamination embroidery of 2 to 16 laminations of 16 tinsels, three bytes of data are read at a time, the data of the first byte in the three bytes is the stitch mark, the data of the second byte in the three bytes is the mark for the embroidery method, and the data of the third byte in the three bytes is the second part of data required by the embroidery method.

In one embodiment, the embroidering one needle according to the five bytes of data and the preset number of bytes of data includes:

combining a first part of data required by an embroidering method in the five bytes of data with a second part of data required by the embroidering method in the three bytes of data to obtain embroidering data of 2-16 laminated embroidery of 16 kinds of tinsels, wherein the embroidering data comprises 16 bit data, each bit data represents one tinsel, for each bit data in the 16 bit data, the bit data is 1 to represent that the tinsel represented by the bit data is used for embroidering, and the bit data is 0 to represent that the tinsel represented by the bit data is not used for embroidering;

and embroidering one needle according to the abscissa of the position to be embroidered, the ordinate of the position to be embroidered, the stitch mark, the mark of the embroidering method and the embroidering data.

In one embodiment, if the stitch identifier is an identifier for special stitch embroidery and the identifier of the embroidery method indicates that the embroidery method is a lamination embroidery of gold pieces, the reading of the data of the preset number of bytes at one time is continued, including:

if the stitch identifier is an identifier for special stitch embroidery, and the identifier for the embroidery method specifically indicates the stitch embroidery with 2, 3, and 4 gold sheets, six bytes of data are read at a time, the data of the first and fourth bytes in the six bytes are the stitch identifier, the data of the second and fifth bytes in the six bytes are the identifier for the embroidery method, the data of the third byte in the six bytes is the fourth part data required by the embroidery method, and the data of the sixth byte in the six bytes is the fifth part data required by the embroidery method.

combining a first part of data required by the embroidering method of the five bytes of data with a fourth part of data and a fifth part of data required by the embroidering method in the six bytes to obtain embroidering data of 2-lamination, 3-lamination and 4-lamination embroidering of 63 kinds of tinsels, wherein the embroidering data comprises 24-bit data, each 6-bit data represents one tinsel, all 6-bit data represent 0's to indicate that the tinsels are not used for embroidering, and all 6-bit data represent 0's to indicate that one corresponding tinsel of 63 tinsels is used for embroidering;

In a second aspect, an embodiment of the present application provides a gold sheet lamination embroidering apparatus, including:

the system comprises an acquisition module, a storage module and a processing module, wherein the acquisition module is used for acquiring pattern data input by a user, and the pattern data comprises data of a plurality of bytes;

the processing module is used for reading the data in the pattern data in sequence according to the byte sequence in the embroidering process;

the processing module is further used for reading five bytes of data at one time when the read byte data are position data marks, wherein the five bytes sequentially represent the abscissa of the position to be embroidered, the ordinate of the position to be embroidered, the stitch mark, the mark of the embroidering method and the first part of data required by the embroidering method; wherein the stitch mark is a mark embroidered by a special stitch or a mark embroidered by a common stitch;

the processing module is further used for continuing to read data of a preset number of bytes at one time if the stitch identification is an identification for special stitch embroidery and the identification of the embroidery method indicates that the embroidery method is gold lamination embroidery;

and the embroidering module is also used for embroidering one needle according to the five bytes of data and the preset number of bytes of data.

In a specific embodiment, the processing module is further configured to:

In a third aspect, an embodiment of the present application provides an embroidery machine, including:

a processor, a memory, an interactive interface;

the memory is used for storing executable instructions of the processor;

wherein the processor is configured to execute the lamination embroidering method of the gold sheet of any one of the first aspect via execution of the executable instructions.

In a fourth aspect, the present application provides a readable storage medium, on which a computer program is stored, and the computer program, when executed by a processor, implements the method for embroidering by stacking gold sheets according to any one of the first aspect.

In a fifth aspect, the present application provides a computer program product, which includes a computer program, and the computer program is used for implementing the lamination embroidering method of the gold sheet in any one of the first aspect when being executed by a processor.

According to the gold piece lamination embroidering method, the gold piece lamination embroidering device, the gold piece lamination embroidering equipment and the gold piece lamination embroidering medium, the embroidering machine sequentially reads pattern data according to the byte sequence, and when the read data are position data marks, five bytes of data are read at one time. And reading the data of the preset number of bytes again according to the stitch identification and the identification of the embroidering method, and embroidering one stitch according to the data of the preset number of bytes and the data of five bytes. According to the scheme, the embroidery machine reads the data corresponding to the lamination embroidery in the pattern data and performs embroidery according to the data, so that the lamination embroidery of 2 to 16 laminations of 16 kinds of sequins and the lamination embroidery of 2 laminations, 3 laminations and 4 laminations of 63 kinds of sequins can be realized.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

Fig. 1 is a schematic flow chart of a first embodiment of a gold sheet lamination embroidering method provided in the present application;

fig. 2a is a schematic flow chart of a second embodiment of a gold sheet lamination embroidering method provided in the present application;

FIG. 2b is a byte diagram of data of a laminated embroidery of 2 to 16 sheets of 16 kinds of tinsels provided in the embodiment of the present application;

fig. 2c is a first schematic diagram of embroidery data provided in the embodiment of the present application;

fig. 3a is a schematic flow chart of a third embodiment of a gold sheet lamination embroidering method provided in the present application;

FIG. 3b is a byte diagram of data of a 2-piece, 3-piece and 4-piece stitch of 63 gold pieces provided by the embodiment of the present application;

fig. 3c is a schematic diagram of embroidery data provided in the embodiment of the present application;

FIG. 4 is a schematic structural diagram of an embodiment of a gold sheet lamination embroidering apparatus provided by the present application;

fig. 5 is a schematic structural diagram of an embroidery machine provided by the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments that can be made by one skilled in the art based on the embodiments in the present application in light of the present disclosure are within the scope of the present application.

The terms "first," "second," "third," "fourth," and the like in the description and in the claims of the present application and in the above-described drawings (if any) are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the application described herein are capable of operation in sequences other than those illustrated or described herein. Moreover, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

With the development of science and technology and the improvement of living standard of people, people have higher and higher requirements on textiles such as clothes and the like, the required quality is better and better, and more patterns are required. In order to meet the requirements of people, patterns on the textile are embroidered by original embroidery threads, and the development that gold pieces can be embroidered on the textile is developed. For the embroidery of the sequin, the embroidery of a single sequin has been developed to be capable of performing lamination embroidery.

In the existing sequin lamination embroidery method, lamination embroidery data at one position is composed of 6 bytes, and only 2-lamination, 3-lamination and 4-lamination sequins of 8 sequins can be realized, and when an embroidery machine reads the data of the 6 bytes, the lamination embroidery of the sequins is carried out. There is no solution currently available for achieving both 2 to 16-ply lamination embroidery of 16 kinds of tinsels and 2, 3 and 4-ply lamination embroidery of 63 kinds of tinsels.

In order to solve the problems in the prior art, the inventor finds that, in the process of researching a gold lamination embroidering method, the number of bytes occupied by data of the lamination embroidering of one gold position and the data of each byte can be changed to realize the lamination embroidering of 2 to 16 laminations of 16 gold sheets and the lamination embroidering of 2 laminations, 3 laminations and 4 laminations of 63 gold sheets. The data of the lamination embroidery of the gold plate at one position can be divided into nine bytes and twelve bytes, when the embroidery machine reads pattern data, the pattern data are read according to the byte sequence, and when the data read to one byte are data marks, the data read to five bytes are read at one time. In the five bytes of data, the stitch identification is the identification of special stitch embroidery, and the identification of the embroidery method specifically indicates the lamination embroidery of 2 to 16 laminations of 16 tinsels, and three bytes of data are read at a time. One-stitch embroidering in the lamination embroidering of 2 to 16 laminations of 16 kinds of tinsels is performed based on five bytes of data and three bytes of data. In the five bytes of data, the stitch identification is an identification of special stitch embroidery, and the identification of the embroidery method specifically indicates 2-ply, 3-ply and 4-ply lamination embroidery of 63 kinds of tinsels, and six bytes of data are read at a time. According to five bytes of data and six bytes of data, one-stitch embroidery is performed in 2-stitch, 3-stitch and 4-stitch stitching of 63 kinds of tinsels. Based on the inventive concept, the lamination embroidering scheme of the gold sheets in the application is designed.

An application scenario of the gold sheet lamination embroidering method provided in the embodiment of the present application is described below. The application scenario may include: a user and an embroidery machine.

For example, in this application scenario, when a user wants to perform a 2-to-16 lamination embroidery of 16 kinds of tinsels or a 2-lamination, 3-lamination, and 4-lamination embroidery of 63 kinds of tinsels, pattern data needs to be input into the embroidery machine and the 16 kinds of tinsels or the 63 kinds of tinsels are placed at a designated position of the embroidery machine.

After the pattern data is input by a user, the embroidery machine can acquire the pattern data, wherein the pattern data comprises data of a plurality of bytes. When the embroidery machine performs embroidery, data of one byte is read in the order of bytes at a time. When the read data in the bytes is the mark of the position data, it is described that the following data is data for embroidering, and it is necessary to read five data at a time, and the five bytes sequentially indicate the abscissa of the position to be embroidered, the ordinate of the position to be embroidered, the stitch mark, the mark of the embroidering method, and the first part of data necessary for the embroidering method.

The embroidery machine needs to determine whether to carry out lamination embroidery of the sequins according to the stitch identification and the identification of the embroidering method. If the stitch mark is a mark for special stitch embroidery, and the mark of the embroidery method specifically indicates the lamination embroidery of 2 to 16 laminations of 16 tinsels, it indicates that the lamination embroidery of 2 to 16 laminations of 16 tinsels needs to be performed, and then three bytes of data are read at one time. The data of the third byte of the three bytes is the second part of data required by the embroidery method.

The embroidery machine further combines a first part of data required by the embroidery method in the five bytes of data with a second part of data required by the embroidery method in the three bytes of data to obtain the embroidery data of the 2-16 lamination embroidery of the 16 gold sheets. The embroidery data is composed of two bytes, the two bytes are 16 bits in total, each bit data represents a sequin, for each bit data in the 16 bit data, when the data is 1, the embroidery is performed by the sequin represented by the bit data, and when the data is 0, the embroidery is performed by the sequin not represented by the bit data. The embroidery machine can perform an embroidery operation with one stitch according to the abscissa of the position to be embroidered, the ordinate of the position to be embroidered, the stitch mark, the mark of the embroidery method, and the embroidery data.

If the stitch identification is the identification for special stitch embroidery, and the identification for the embroidery method specifically indicates the lamination embroidery of 2 laminations, 3 laminations and 4 laminations of 63 tinsels, it is described that the lamination embroidery of 2 laminations, 3 laminations and 4 laminations of 63 tinsels needs to be performed, and then six bytes of data are read at one time, the third byte in the six bytes is the fourth part of data required by the embroidery method, and the sixth byte of data in the six bytes is the fifth part of data required by the embroidery method.

The embroidery machine further combines the first part of data required by the embroidery method in the five bytes of data with the fourth part of data and the fifth part of data required by the embroidery method in the six bytes of data to obtain the embroidery data of the 2-lamination, 3-lamination and 4-lamination embroidery of 63 sequins. The embroidery data is composed of 3 bytes, 24 bits are provided, each 6-bit data represents a gold piece, when all the 6-bit data are 0, the gold piece is not used for embroidering, when all the 6-bit data are 0, the corresponding gold piece in 63 pieces is used for embroidering, each bit of data in the 6-bit data is 1 or not 0, therefore, 64 combinations are provided, all the combinations are removed from the combination of 0, and each combination in the remaining 63 combinations represents a gold piece. The embroidery machine can perform an embroidery operation with one stitch according to the abscissa of the position to be embroidered, the ordinate of the position to be embroidered, the stitch mark, the mark of the embroidery method, and the embroidery data.

It should be noted that the above scenario is only an illustration of an application scenario provided in the embodiment of the present application, and the embodiment of the present application does not limit actual forms of various devices included in the application scenario, and in a specific application of a scheme, the setting may be performed according to actual requirements.

The technical solution of the present application will be described in detail below with reference to specific examples. It should be noted that the following several specific embodiments may be combined with each other, and the same or similar concepts or processes may not be described in detail in some embodiments.

Fig. 1 is a schematic flow diagram of a first embodiment of a gold sheet lamination embroidering method provided in the present application, and as shown in fig. 1, the gold sheet lamination embroidering method specifically includes the following steps:

s101: pattern data input by a user is acquired.

When a user wants to perform lamination embroidery of 2 to 16 kinds of tinsels or 2, 3 and 4 kinds of tinsels, the user inputs design data into the embroidery machine and places the 16 kinds of tinsels or 63 kinds of tinsels at a designated position of the embroidery machine.

In this step, the embroidery machine can acquire pattern data including a plurality of bytes of data, that is, the pattern data is in units of bytes, after the user inputs the pattern data.

The pattern data may be input by the user by copying the pattern data stored in the usb disk to the embroidery machine via the usb disk, and storing the pattern data in the embroidery machine. The pattern data may be input by the user through the server and the terminal device, the terminal device stores the pattern data, and the user may transmit the pattern data to the embroidery machine through the terminal device and the server. The embodiment of the application does not limit the mode of inputting the pattern data by the user and can select the pattern data according to actual conditions.

S102: in the embroidering process, data in the pattern data are sequentially read in the order of bytes.

In this step, after the embroidery machine obtains the pattern data, since the embroidery machine does not know the position of the data corresponding to the lamination embroidery of the sequin, the data in the pattern data need to be sequentially read according to the byte order until the byte data is read as the position data identifier.

S103: when the read byte data is the position data identification, the data of five bytes is read at one time.

In this step, after reading data in the pattern data in the byte order, the embroidery machine reads the byte data as the position data flag, which indicates that the embroidery is necessary, but the embroidery machine does not determine what pattern is to be embroidered, and therefore, the data needs to be read further. Reading five bytes of data at one time, wherein the five bytes sequentially represent the abscissa of the position to be embroidered, the ordinate of the position to be embroidered, the stitch identification, the identification of the embroidering method and the first part of data required by the embroidering method; wherein the stitch mark is a mark embroidered by a special stitch or a mark embroidered by a common stitch.

It should be noted that the position data identifier may be a number, a letter, a combination of a string of numbers, a combination of a string of letters, or a combination of a string of letters and numbers. For example, the location data identifier may be 0x81, or 9876, and the embodiment of the present application does not limit the location data identifier, and may be set according to actual situations.

S104: if the stitch identification is the identification embroidered by the special stitch and the identification of the embroidery method indicates that the embroidery method is the lamination embroidery of the sequin, the data with the preset number of bytes is continuously read at one time.

In this step, after the embroidery machine reads the five bytes of data, if the stitch identification is the identification for special stitch embroidery and the identification of the embroidery method indicates that the embroidery method is the lamination embroidery of gold, the data of the preset number of bytes is continuously read at one time, and the data of the preset number of bytes includes other data required by the embroidery method.

It should be noted that the preset number is set in the embroidery machine by the staff before the embroidery machine performs lamination embroidery of gold sheets, and is used for reading the data of the preset number and bytes. The preset number may be 3, 6, or 9, and the embodiment of the present application does not limit the preset number, and may be set according to actual situations.

It should be noted that the stitch marks and the embroidery marks may be numbers or letters, or a combination of a string of numbers, a combination of a string of letters, or a combination of a string of letters and numbers. For example, the stitch identification may be 0xD7, or 9966; the identifier of the embroidering method may be 0x08 or 0x09, and the position stitching identifier and the identifier of the embroidering method are not limited in the embodiments of the present application and may be set according to actual situations.

S105: and embroidering by a needle according to the five bytes of data and the preset number of bytes of data.

In this step, after the embroidery machine reads the preset number of bytes, the embroidery machine can perform a stitch embroidery because the five bytes have the abscissa of the position to be embroidered, the ordinate of the position to be embroidered, the stitch identification, the identification of the embroidering method and the first part of data required by the embroidering method, and the preset number of bytes have other part of data required by the embroidering method. After finishing embroidering one stitch, the embroidery machine will read the pattern data and embroider according to the pattern data.

In the method for embroidering gold sheet lamination provided by this embodiment, the embroidery machine reads pattern data in sequence according to the byte order, and reads five bytes of data at a time when reading the position data identifier. And when the lamination embroidering of the sequin is determined according to the stitch identification and the embroidering method identification, acquiring the data of the preset number of bytes once again. The five bytes comprise the abscissa of the position to be embroidered, the ordinate of the position to be embroidered, the stitch identification, the identification of the embroidering method and the first part of data required by the embroidering method, and the preset number of bytes comprise other parts of data required by the embroidering method, so that the embroidering machine can embroider a stitch according to the data of the five bytes and the data of the preset number of bytes. Compared with the prior art which can only realize the 2-lamination, 3-lamination and 4-lamination embroidery of 8 tinsels, the scheme can realize the 2-16-lamination embroidery of 16 tinsels and the 2-lamination, 3-lamination and 4-lamination embroidery of 63 tinsels by using five-byte data and preset number of bytes of data.

Fig. 2a is a schematic flow chart of a second embodiment of a gold sheet lamination embroidering method provided in the present application, and as shown in fig. 2a, on the basis of the above embodiment, step S104 and step S105 of the first embodiment can be implemented by the following steps:

s201: if the stitch identification is an identification for special stitch embroidery and the identification for the embroidery method specifically indicates the lamination embroidery of 2 to 16 laminations of 16 gold sheets, three bytes of data are read at a time.

In this step, after reading the five bytes of data, if the stitch identifier is a special stitch embroidery identifier and the identifier of the embroidery method specifically indicates the lamination embroidery of 2 to 16 of 16 tinsels, three bytes of data are read at a time, the data of the first byte in the three bytes is the stitch identifier, the data of the second byte in the three bytes is the identifier of the embroidery method, and the data of the third byte in the three bytes is the second part of data required by the embroidery method, so as to perform the embroidery according to the three bytes of data in the following step.

It should be noted that, in the above-mentioned solution, the data of the laminated embroidery of 2 to 16 laminations of 16 kinds of gold sheets at one position is composed of nine bytes, including position data identification, five bytes of data and three bytes of data. The data of the 2 to 16-layer lamination embroidery of 16 gold plates at one position can also consist of twelve bytes, including data identification, five bytes of data and six bytes of data, wherein the six bytes of data comprise the second part of data required by the embroidery method. In this case, the stitch identification is an identification for special stitch embroidery, and the identification of the embroidery method specifically indicates that six bytes of data are read at a time by the embroidery machine when the lamination embroidery of 2 to 16 laminations of 16 kinds of gold pieces is embroidered.

The data of the 2 to 16-layer lamination embroidery of 16 gold plates at one position can also consist of fifteen bytes, including data identification, five-byte data and nine-byte data, wherein the nine-byte data comprises a second part of data required by the embroidery method. In this case, the stitch identification is an identification of special stitch embroidery, and the identification of the embroidery method specifically indicates that nine bytes of data are read at a time by the embroidery machine when the lamination embroidery of 2 to 16 laminations of 16 kinds of gold pieces is embroidered.

For example, fig. 2b is a byte diagram of data of a 2 to 16-lamination embroidery of 16 kinds of gold sheets provided in the embodiments of the present application. As shown in fig. 2b, the data consists of nine bytes, which are sequentially a position data identifier, an abscissa of a position to be embroidered, an ordinate of the position to be embroidered, a stitch identifier, an identifier of an embroidering method, a first part of data required by the embroidering method, a stitch identifier, an identifier of the embroidering method, and a second part of data required by the embroidering method.

It should be noted that the above example is only an example of the bytes of data of the 2 to 16-lamination embroidery of 16 kinds of tinsels, and the number of bytes of data and the data in the bytes of the 2 to 16-lamination embroidery of 16 kinds of tinsels constituting one position are not limited in the embodiments of the present application and may be set according to actual situations.

S202: and combining a first part of data required by the embroidering method in the five-byte data with a second part of data required by the embroidering method in the three bytes to obtain the embroidering method data of the 16 kinds of gold pieces and the lamination embroidery with 2 to 16 laminations.

In this step, after the embroidery machine reads the data of three bytes, the embroidery machine combines the first part of data required by the embroidery method in the data of five bytes with the second part of data required by the embroidery method in the data of three bytes to obtain the embroidery data of the 2 to 16-lamination embroidery of 16 kinds of tinsels, wherein the embroidery data comprises 16-bit data, each bit of data represents a tinsel, when the bit of data is 1, the tinsel represented by the bit of data is adopted for embroidering, and when the bit of data is 0, the tinsel represented by the bit of data is not adopted for embroidering.

Exemplarily, fig. 2c is a schematic diagram of embroidery data provided by the embodiment of the present application; as shown in fig. 2c, the embroidery data is composed of a first part of data required by the embroidery method in five bytes and a second part of data required by the embroidery method in three bytes, wherein the first part of data is composed of eight bits of data from bit0 to bit7, and the second part of data is composed of eight bits of data from bit8 to bit 15. Each bit represents a gold plaque, and a bit of 1 indicates that the gold plaque is used for embroidering, and a bit of 0 indicates that the gold plaque is not used for embroidering. In addition, the bit sequence also represents the embroidering sequence of the sequin.

Illustratively, bit0 through bit15 respectively represent the 1 st to 15 th gold slabs, the values of bit3 through bit15 are 0, and the values of bit0 through bit2 are 1, which indicates that the 1 st, 2 nd and 3 rd gold slabs are used for embroidering, and the 1 st, 2 nd and 3 rd gold slabs or the 3 rd, 2 nd and 1 st gold slabs are stacked in sequence from top to bottom.

It should be noted that the above example is only an example of the embroidery data, and the embroidery data and the stacking order are not limited in the embodiment of the present application and may be set according to actual situations.

S203: an embroidering of a needle is performed according to the abscissa of the position to be embroidered, the ordinate of the position to be embroidered, the stitch mark, the mark of the embroidering method, and the embroidering data.

In this step, after the embroidery machine obtains the embroidery method data, an embroidery operation can be performed by combining the embroidery method data with the abscissa of the position to be embroidered, the ordinate of the position to be embroidered, the stitch identification, the identification of the embroidery method, and the like in the five bytes.

In the method for stitching gold medals provided by this embodiment, when the identifier of the embroidering method specifically indicates the stitching embroidery of 2 to 16 gold medals, three bytes of data are read, and the second part of data required by the embroidering method and the first part of data required by the embroidering method in the three bytes of data constitute embroidering method data. The embroidery machine embroiders a stitch according to the embroidery method data, the abscissa of the position to be embroidered, the ordinate of the position to be embroidered, the stitch mark and the mark of the embroidery method. The scheme realizes the 2-16 lamination embroidery of the 16 gold sheets by reading the data of the 2-16 lamination embroidery of the 16 gold sheets.

Fig. 3a is a schematic flow chart of a third embodiment of a gold sheet lamination embroidering method provided in the present application, and as shown in fig. 3a, on the basis of the above embodiment, step S104 and step S105 of the first embodiment can be implemented by the following steps:

s301: if the stitch identification is the identification for special stitch embroidery, and the identification for the embroidery method specifically indicates the lamination embroidery of 2 laminations, 3 laminations and 4 laminations of 63 gold sheets, six bytes of data are read at one time.

In this step, after reading the five bytes of data, if the stitch identifier is the identifier for special stitch embroidery and the identifier for the embroidery method specifically indicates the lamination embroidery with 2 laminations, 3 laminations and 4 laminations of 63 tinsels, the embroidery machine reads six bytes of data at a time, the first byte and the fourth byte of the six bytes are the stitch identifier, the second byte and the fifth byte of the six bytes are the identifier for the embroidery method, the third byte of the six bytes is the fourth partial data required by the embroidery method, and the sixth byte of the six bytes is the fifth partial data required by the embroidery method, so as to perform embroidery according to the six bytes of data later.

It should be noted that, in the above scheme, the data of the 2-piece, 3-piece and 4-piece lamination embroidery of 63 kinds of gold pieces at one position is composed of twelve bytes, including position data identification, five bytes of data and six bytes of data. The data of the 2 to 16-layer lamination embroidery of 16 tinsels at one position can also consist of fifteen bytes, including data identification, five-byte data and nine-byte data, wherein the nine-byte data comprises a fourth part data and a fifth part data required by the embroidery method. In this case, the stitch identification is an identification for special stitch embroidery, and the identification of the embroidery method specifically indicates that nine bytes of data are read at a time by the embroidery machine when 2-piece, 3-piece, and 4-piece pieces of 63 kinds of tinsels are embroidered by the pieces of lamination.

The data of the 2-piece, 3-piece and 4-piece laminated embroidery of 63 gold pieces at one position can also consist of eighteen bytes, including data identification, five bytes of data and twelve bytes of data, wherein the twelve bytes of data include the fourth part data and the fifth part data required by the embroidery method. In this case, the stitch identification is an identification for special stitch embroidery, and the identification of the embroidery method specifically indicates that twelve bytes of data are read at a time by the embroidery machine when 2-piece, 3-piece, and 4-piece pieces of 63 kinds of tinsels are embroidered by the pieces of lamination.

Illustratively, fig. 3b is a byte diagram of data of a 2-lamination, 3-lamination and 4-lamination embroidery of 63 gold sheets provided by the embodiment of the present application. As shown in fig. 3b, the data is composed of twelve bytes, and sequentially includes a position data identifier, an abscissa of a position to be embroidered, an ordinate of the position to be embroidered, a stitch identifier, an identifier of an embroidering method, a first part of data required by the embroidering method, a stitch identifier, an identifier of the embroidering method, a fourth part of data required by the embroidering method, a stitch identifier, an identifier of the embroidering method, and a fifth part of data required by the embroidering method.

It should be noted that the above example is only an example of the bytes of data of the lamination embroidery of 2 laminations, 3 laminations and 4 laminations of 63 gold sheets, and the embodiments of the present application do not limit the number of bytes of data of the lamination embroidery of 2 laminations, 3 laminations and 4 laminations of 63 gold sheets constituting one position and the data in the bytes, and can be set according to actual situations.

S302: combining the first part of data required by the embroidering method of five bytes of data with the fourth part of data and the fifth part of data required by the embroidering method in six bytes to obtain embroidering method data of 2-lamination, 3-lamination and 4-lamination of 63 kinds of tinsels.

In this step, after the embroidery machine reads the six bytes of data, the first part of data required by the embroidery method in the five bytes of data is combined with the fourth part of data and the fifth part of data required by the embroidery method in the six bytes of data to obtain the embroidery data of the 2-lamination, 3-lamination and 4-lamination embroidery of 63 kinds of tinsels, wherein the embroidery data comprises 24 bits of data, each 6 bits of data represents one tinsel, when all 6 bits of data are 0, the embroidery is not performed by using the tinsel, and when all 6 bits of data are 0, the embroidery is performed by using one corresponding tinsel of the 63-middle tinsels.

Exemplarily, fig. 3c is a schematic diagram of embroidery data provided by the embodiment of the present application; as shown in fig. 3c, the embroidery data is a combination of a first part of data of five bytes required for the embroidery method and a fourth part of data and a fifth part of data of six bytes required for the embroidery method, and the total data is 24 bits of data. The first part of data consists of eight bit data from bit0 to bit7, the fourth part of data consists of eight bit data from bit8 to bit15, and the fifth part of data consists of eight bit data from bit16 to bit 123. In bits 0 to 24, each 6-bit data represents one gold, bits 0 to 5 represent the first gold, bits 6 to 11 represent the second gold, bits 12 to 17 represent the third gold, and bits 18 to 23 represent the fourth gold. Taking bit0 to bit5 as an example, since the value of each bit is either 0 or 1, the combination of bit0 to bit5 yields 64 combinations, except for the combination of all 0, each of the remaining 63 combinations represents a gold piece, and the total of bit0 to bit5 is 0, which means that no gold piece is used for embroidering.

Illustratively, the values of bit12 through bit123 are 0; of bits 0 through bit5, bit5 has a value of 1, and the others are 0; of bits 6 through bit11, bits 6 and bits 7 have a value of 1, and the rest are 0. The explanation is that only two tinsels are used for embroidering, the first tinsels are among bit 0-bit 5, bit5 has the value of 1, and the rest are tinsels represented by 0; the second gold plate is the gold plate represented by bit6 to bit11, bit6 and bit7 have the value of 1, and the rest are 0. The first gold plate and the second gold plate can be stacked in sequence that the first gold plate is arranged above and the second gold plate is arranged below; the stacking sequence may also be with the second gold sheet on top and the first gold sheet on the bottom.

S303: an embroidering of a needle is performed according to the abscissa of the position to be embroidered, the ordinate of the position to be embroidered, the stitch mark, the mark of the embroidering method, and the embroidering data.

In the method for embroidering gold sheet lamination provided by this embodiment, when the identifier of the embroidering method specifically indicates lamination embroidering of 2 laminations, 3 laminations and 4 laminations of 63 kinds of gold sheets, six bytes of data are read, and the fourth part of data and the fifth part of data required by the embroidering method in the six bytes of data and the first part of data required by the embroidering method constitute embroidering method data. The embroidery machine embroiders a stitch according to the embroidery method data, the abscissa of the position to be embroidered, the ordinate of the position to be embroidered, the stitch mark and the mark of the embroidery method. The scheme realizes the 2-lamination, 3-lamination and 4-lamination embroidery of 63 gold sheets by reading the data of the 2-lamination, 3-lamination and 4-lamination embroidery of 63 gold sheets.

The following are embodiments of the apparatus of the present application that may be used to perform embodiments of the method of the present application. For details which are not disclosed in the embodiments of the apparatus of the present application, reference is made to the embodiments of the method of the present application.

FIG. 4 is a schematic structural diagram of an embodiment of a gold sheet lamination embroidering apparatus provided by the present application; as shown in fig. 4, the gold-sheet lamination embroidering apparatus 40 includes:

an obtaining module 41, configured to obtain pattern data input by a user, where the pattern data includes data of multiple bytes;

the processing module 42 is configured to, in the embroidering process, sequentially read data in the pattern data according to a byte order;

the processing module 42 is further configured to read five bytes of data at a time when the read byte data is a position data identifier, where the five bytes sequentially represent an abscissa of a position to be embroidered, an ordinate of the position to be embroidered, a stitch identifier, an identifier of an embroidering method, and a first part of data required by the embroidering method; wherein the stitch mark is a mark embroidered by a special stitch or a mark embroidered by a common stitch;

the processing module 42 is further configured to continue to read data of a preset number of bytes at one time if the stitch identifier is an identifier for special stitch embroidery and the identifier of the embroidery method indicates that the embroidery method is sheet-metal lamination embroidery;

the embroidering module 43 is further configured to perform stitch embroidering according to the five bytes of data and the preset number of bytes of data.

Further, the processing module 42 is further configured to:

further, the embroidering module 43 is further configured to:

Further, the processing module 42 is further configured to:

further, the embroidering module 43 is further configured to:

and embroidering one stitch according to the abscissa of the position to be embroidered, the ordinate of the position to be embroidered, the stitch identification, the identification of the embroidering method and the embroidering method data.

The lamination embroidering device of the sequin provided by the embodiment is used for executing the technical scheme of the embroidering machine in any one of the method embodiments, the implementation principle and the technical effect are similar, and the details are not repeated herein.

Fig. 5 is a schematic structural diagram of an embroidery machine provided by the present application. As shown in fig. 5, the embroidering machine 50 includes:

a processor 51, a memory 52, and an interactive interface 53;

the memory 52 is used for storing executable instructions of the processor 51;

wherein the processor 51 is configured to execute the technical solution of the embroidery machine in any of the method embodiments described above via executing the executable instructions.

Alternatively, the memory 52 may be separate or integrated with the processor 51.

Optionally, when the memory 52 is a device independent from the processor 51, the embroidery machine 50 may further include:

and the bus is used for connecting the devices.

The embroidery machine is used for executing the technical scheme of the embroidery machine in any one of the method embodiments, the implementation principle and the technical effect are similar, and the detailed description is omitted.

The embodiment of the present application further provides a readable storage medium, on which a computer program is stored, and the computer program, when executed by a processor, implements the technical solutions provided by any of the foregoing method embodiments.

The embodiment of the present application further provides a computer program product, which includes a computer program, and the computer program is used for implementing the technical solution provided by any of the foregoing method embodiments when being executed by a processor.

Those of ordinary skill in the art will understand that: all or a portion of the steps of implementing the above-described method embodiments may be performed by hardware associated with program instructions. The foregoing program may be stored in a computer-readable storage medium. When executed, the program performs steps comprising the method embodiments described above; and the aforementioned storage medium includes: various media that can store program codes, such as ROM, RAM, magnetic or optical disks.

Finally, it should be noted that: the above embodiments are only used for illustrating the technical solutions of the present application, and not for limiting the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present application.

Claims

1. A lamination embroidering method of gold sheets is characterized by being applied to an embroidering machine, and the method comprises the following steps:

obtaining pattern data input by a user, wherein the pattern data comprises data of a plurality of bytes;

2. The method as claimed in claim 1, wherein if the stitch identification is an identification for special stitch embroidery and the identification of the embroidery method indicates that the embroidery method is a lamination embroidery of gold pieces, continuing to read the data of a predetermined number of bytes at a time comprises:

if the stitch mark is a mark for special stitch embroidery, and the mark of the embroidery method specifically indicates the lamination embroidery of 2 to 16 laminations of 16 tinsels, three bytes of data are read at one time, the data of the first byte in the three bytes is the stitch mark, the data of the second byte in the three bytes is the mark of the embroidery method, and the data of the third byte in the three bytes is the second part of data required by the embroidery method.

3. The method according to claim 2, wherein the embroidering one needle according to the five bytes of data and the preset number of bytes of data comprises:

4. The method as claimed in claim 1, wherein if the stitch identification is an identification for special stitch embroidery and the identification of the embroidery method indicates that the embroidery method is a lamination embroidery of gold pieces, continuing to read the data of a predetermined number of bytes at a time comprises:

5. The method according to claim 4, wherein the embroidering one needle according to the five bytes of data and the preset number of bytes of data comprises:

6. A sequin lamination embroidering device is characterized by comprising:

the processing module is further used for reading five bytes of data at one time when the byte data read as the position data identification are read, wherein the five bytes sequentially represent the abscissa of the position to be embroidered, the ordinate of the position to be embroidered, the stitch identification, the identification of the embroidering method and the first part of data required by the embroidering method; wherein the stitch mark is a mark embroidered by a special stitch or a mark embroidered by a common stitch;

the processing module is further configured to continue to read data of a preset number of bytes at one time if the stitch identifier is an identifier for special stitch embroidery and the identifier of the embroidery method indicates that the embroidery method is gold lamination embroidery;

7. The apparatus of claim 6, wherein the processing module is further configured to:

8. An embroidery machine, comprising:

a processor, a memory, an interactive interface;

the memory is used for storing executable instructions of the processor;

wherein the processor is configured to perform the gold sheet lamination embroidery method of any one of claims 1 to 5 via execution of the executable instructions.

9. A readable storage medium on which a computer program is stored, the computer program, when executed by a processor, implementing a method of lamination embroidery of gold sheets as claimed in any one of claims 1 to 5.

10. A computer program product, characterized in that it comprises a computer program for implementing a method for lamination embroidery of gold sheets as claimed in any one of claims 1 to 5 when executed by a processor.