CN108491571B - Fabric design method, system and device with storage function - Google Patents

Abstract

The application discloses a fabric design method, a system and a device with a storage function, comprising: receiving a first instruction comprising characteristic data of the fabric, wherein the characteristic data comprises process contour data of the fabric and information of a filling material; generating a profile design of the fabric based on the process profile data; taking the filler material as a bottom layer, and forming a design drawing of the fabric for a top layer by using the contour design drawing of the fabric; wherein the light transmittance of the contour design is greater than the light transmittance of the fabric design. According to the method and the device, the outline design drawing and the filling material can be displayed in a superposed mode in the fabric design process, the superposed sequence of the outline design drawing and the filling material is switched according to the fabric design effect, the outline design drawing and the filling material are modified, the drawing time of the fabric design drawing is saved, and the design efficiency is improved.

Description

Fabric design method, system and device with storage function

Technical Field

The present application relates to the field of fabric design, and more particularly, to a method and system for designing a fabric and a device having a storage function.

Background

The fabric integrates artistry and technicality, and has good decorative effect and high added value. The fabric can integrate the art into people's daily life in the most common way, namely, the fabric pattern represents artistic figures. In the prior art, the fabric design usually goes through two steps of generating a contour design drawing of the fabric and filling materials, and the two steps are mutually influenced.

The fabric design process will be described by taking the fabric as the sweater. When designing a sweater, the process contour data obtained by calculation on the basis of the knitting contour of the fabric (such as data of the chest circumference, the shoulder width, the arm length, the waist circumference and the like of the sweater) on the basis of the knitting contour of the fabric needs to be designed, then the data is imported into the software for drawing the contour design drawing, and the software generates the contour design drawing according to the contour data and draws filling materials in the contour design drawing. If the contour design drawing of the fabric needs to be modified after the filling material drawing is finished, the contour design drawing needs to be abandoned, the contour design drawing of the fabric needs to be redesigned, the filling material drawing is carried out again, the drawing time of the fabric design drawing is wasted, and the efficiency is very low.

Disclosure of Invention

The technical problem mainly solved by the application is to provide a fabric design method, a system and a device with a storage function, which can save the drawing time of a fabric design drawing and improve the design efficiency.

In order to solve the technical problem, the application adopts a technical scheme that: a method of designing a fabric is provided, comprising: receiving a first instruction comprising characteristic data of the fabric, wherein the characteristic data comprises process contour data of the fabric and information of a filling material; generating a profile design of the fabric based on the process profile data; taking the filler material as a bottom layer, and forming a design drawing of the fabric for a top layer by using the contour design drawing of the fabric; wherein the light transmittance of the contour design is greater than the light transmittance of the fabric design.

In order to solve the above technical problem, another technical solution adopted by the present application is: providing a fabric design system comprising: the communication circuit, the memorizer, the processor, the said processor couples to said communication circuit and said memorizer separately; the communication circuit is used for acquiring and transmitting instructions; the memory is used for storing the process contour data of the fabric, the information of the filling material, the contour design drawing, the fabric design drawing, the on-machine file and the computer program executed by the processor; the processor, when executing the computer program, implements the fabric design method as described above.

In order to solve the above technical problem, the present application adopts another technical solution that: there is provided a device having a memory function, the device storing program data executable to implement a fabric design method as described above.

The beneficial effect of this application is: different from the situation of the prior art, after the first instruction comprising the fabric characteristic data is obtained, the contour design drawing of the fabric is generated based on the process contour data contained in the fabric characteristic data, the filling material information in the fabric characteristic data is used as the bottom layer, the contour design drawing is used as the top layer to form the design drawing of the fabric, the light transmittance of the contour design drawing is greater than that of the filling material, the contour design drawing and the filling material can be displayed in a superposed mode, the superposed sequence of the contour design drawing and the filling material is switched according to the fabric design effect, the two are modified, the drawing time of the fabric design drawing is saved, and the design efficiency is improved.

Drawings

FIG. 1 is a schematic flow chart diagram of one embodiment of a method of designing a fabric according to the present application;

FIG. 2 is a schematic flow chart of another embodiment of a method of designing a fabric according to the present application;

FIG. 3 is a detailed flowchart of an embodiment of step S203 in FIG. 2 according to the design drawing;

FIG. 4 is a schematic diagram of the structure of an embodiment of the present fabric design system;

fig. 5 is a schematic structural diagram of an embodiment of the apparatus with a storage function according to the present application.

Detailed Description

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 only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments obtained by a person of ordinary skill in the art without any creative effort based on the embodiments in the present application belong to the protection scope of the present application.

Referring to fig. 1, fig. 1 is a schematic flow chart of an embodiment of a fabric design method according to the present application, in which a data processing method includes the following steps:

s101: receiving a first instruction comprising characteristic data of the fabric, wherein the characteristic data comprises process profile data of the fabric and information of a filling material.

In the present embodiment, in order to facilitate drawing of the fabric design drawing, it is necessary to acquire the characteristic data of the fabric related to the fabric design drawing to be drawn before drawing. Wherein the characteristic data of the fabric comprises process characteristic data of the fabric and information of the filling material.

In this embodiment, the information including the fabric characteristic data is sent to the device performing the fabric design drawing in the form of the first instruction, wherein the device for acquiring the first instruction is a tablet computer. In other embodiments, the device includes a desktop, laptop, smartphone, robot, server, etc. device with computing capabilities that can obtain instructions including fabric characteristic data and perform corresponding operations according to the instructions.

In this embodiment, the types of fabrics that can be used to draw the fabric design drawing include bedding such as a quilt cover, a pillow case, a pillow towel, a bed sheet, a bed cover, a blanket, a thread blanket, and a towel blanket, and knitted clothing such as a woolen sweater, a sweater, an undershirt, a chiffon shirt, and a shirt, and the fabric is a product of a process in which yarns of various raw materials and varieties are formed into loops by using a knitting needle and then connected into knitted fabrics by a loop, and therefore, the description thereof is omitted.

In a specific embodiment, taking the device as a tablet computer and the fabric as a sweater as an example, the tablet computer obtains a first instruction and performs sweater design drawing according to the first instruction. The first instructions include process contour data for the sweater and information for the filling material. The technical outline data of the sweater is compiled data of all parts of the sweater calculated according to the sizes of all the parts of the sweater, such as: 279 turns on the shoulder, 75 needles, 16 needles, 370 needles on the waist, 19 turns on the swing, etc. The filling material information is at least one of material, pattern and color of the sweater.

In the above embodiment, the process contour data of the fabric includes the knitting contour of the fabric calculated from the size of each portion of the fabric. Wherein, the sizes of all parts of the fabric comprise at least one of the chest circumference, the shoulder width, the arm length and the waist circumference of the fabric to express the information of the fabric appearance. In other embodiments, the size of each part of the fabric may be information for expressing the outer shape and size of the fabric, such as length, width, arc, angle, side length, thickness, and the like, and is not limited herein. After the information is obtained, the knitting data of each part of the fabric, which is calculated according to the information, is the knitting outline of the fabric.

In the above embodiment, the filling material information is a fabric style, in which a specific fabric effect is achieved by different yarn colors and stitches, and is expressed as at least one of a material, a pattern, and a color of the filling material in the design drawing, wherein the material of the fabric may be natural fibers such as wool, rabbit hair, and cotton, or synthetic fibers such as acrylic fiber, polyester fiber, rayon, and rayon. The patterns of the fabric can be weaving patterns such as hank, ribbing, kalanchoe, jacquard and the like. The color of the fabric comprises red, blue, yellow and other colors which can be recognized by human eyes. In other embodiments, the information of the filled material may be information of other filled materials that can represent the fabric design effect, and is not described herein again.

S102: generating a profile design for the fabric based on the process profile data.

In a specific embodiment, the device receiving the first instruction is a tablet computer, and the fabric is a sweater. And after receiving the sweater process contour data and the filling material information included in the first instruction, the tablet personal computer imports the process contour data of the sweater into plate making software, and the plate making software generates a contour design drawing of the sweater according to the process contour data. The profile design drawing comprises knitting data of all parts of the sweater, the panel personal computer can receive instructions to adjust the profile and the size of the sweater in the profile design drawing, and the knitting data of all parts of the sweater are modified according to the adjusted profile design drawing.

In other embodiments, the device for obtaining the first instruction can lead the fabric process contour data in the first instruction into other software which can generate the fabric contour design drawing. The device can also import the process contour data of the fabric into the cloud server to generate the fabric contour design drawing, and the device only needs to acquire the first instruction to generate the fabric contour design drawing according to the fabric process contour data in the instruction and can receive the instruction to adjust the contour design drawing, and the device is not limited herein.

S103: taking the filler material as a bottom layer, and forming a design drawing of the fabric for a top layer by using the contour design drawing of the fabric; wherein the light transmittance of the profile design is greater than the light transmittance of the filler material.

In a specific embodiment, the device for acquiring the first instruction is a tablet computer, and the fabric is a sweater. After the sweater object contour design drawing is generated by the tablet personal computer according to the sweater process contour data in the first instruction, the design interface containing the filling material information is generated according to the filling material information in the first instruction, and the design drawing of the sweater is generated by taking the sweater contour design drawing as the top layer and the design interface containing the filling material information as the bottom layer.

In the above embodiment, the light transmittance of the sweater outline design chart is greater than the light transmittance of the design interface containing the filling material information, wherein the light transmittances of the sweater outline design chart and the design interface containing the filling material information can be adjusted as required, and a user can see the design interface containing the filling material information through the sweater outline design chart, which is not limited herein.

After the design drawing of the fabric is generated, the contour design drawing of the fabric and the design interface containing the filling material information are adjusted according to the design effect of the fabric so as to adjust the design effect of the design drawing of the fabric, thereby obtaining the final design drawing of the fabric.

To further more clearly describe the above fabric design method, further reference is made to fig. 2. As shown in fig. 2, fig. 2 is a schematic flow chart of another embodiment of the fabric design method of the present application.

S201: a first instruction including characteristic data of the fabric is received.

Wherein the characteristic data comprises process profile data of the fabric and information of a filling material.

In the present embodiment, in order to facilitate drawing of the fabric design drawing, it is necessary to acquire the characteristic data of the fabric related to the fabric design drawing to be drawn before drawing. Wherein the characteristic data of the fabric comprises process characteristic data of the fabric and information of the filling material.

In this embodiment, the information including the fabric characteristic data is sent to the device performing the fabric design drawing in the form of the first instruction, wherein the device for acquiring the first instruction is a tablet computer. In other embodiments, the device includes a desktop, laptop, smartphone, robot, server, etc. device with computing capabilities that can obtain instructions including fabric characteristic data and perform corresponding operations according to the instructions.

In this embodiment, the types of fabrics that can be used to draw the fabric design drawing include bedding such as a quilt cover, a pillow case, a pillow towel, a bed sheet, a bed cover, a blanket, a thread blanket, and a towel blanket, and knitted clothing such as a woolen sweater, a sweater, an undershirt, a chiffon shirt, and a shirt, and the fabric is a product of a process in which yarns of various raw materials and varieties are formed into loops by using a knitting needle and then connected into knitted fabrics by a loop, and therefore, the description thereof is omitted.

In a specific embodiment, the device is a tablet computer, the fabric is a sweater, and the tablet computer acquires a first instruction and performs sweater design drawing according to the instruction. The first instructions include process contour data for the sweater and information for the filling material. The technical outline data of the sweater is compiled data of all parts of the sweater calculated according to the sizes of all the parts of the sweater, such as: 279 turns on the shoulder, 75 needles, 16 needles, 370 needles on the waist, 19 turns on the swing, etc. The filling material information is at least one of material, pattern and color of the sweater.

In the above embodiment, the process contour data of the fabric includes the knitting contour data of the fabric calculated from the sizes of the respective portions of the fabric. Wherein, the sizes of all parts of the fabric comprise at least one of the chest circumference, the shoulder width, the arm length and the waist circumference of the fabric to express the information of the fabric appearance. In other embodiments, the size of each part of the fabric may be information for expressing the outer shape and size of the fabric, such as length, width, arc, angle, side length, thickness, and the like, and is not limited herein. After the information is obtained, the compiling data of each part of the fabric, which is calculated according to the information, is the fabric weaving outline data.

In the above embodiment, the filling material information is a fabric style that realizes a specific fabric effect by different yarn colors and stitches, and is expressed by at least one of a material, a pattern, and a color of the filling material in the design drawing, wherein the material of the fabric may be natural fibers such as wool, rabbit hair, and cotton, or synthetic fibers such as acrylic fiber, polyester fiber, rayon, and rayon. The patterns of the fabric can be weaving patterns such as hank, ribbing, kalanchoe, jacquard and the like. The color of the fabric comprises red, blue, yellow and other colors which can be recognized by human eyes. In other embodiments, the information of the filled material may be information of other filled materials that can represent the fabric design effect, and is not described herein again.

After the first instruction is obtained, an outline design drawing of the fabric needs to be generated according to the process outline data of the fabric included in the first instruction, and a filling material design interface is generated according to the filling material information in the first instruction. This step is divided into S2021 and S2022 in the flowchart of this embodiment.

S2021: a profile design is generated based on the process profile data.

In a specific embodiment, the device receiving the first instruction is a tablet computer, and the fabric is a sweater. And after receiving the sweater process contour data and the filling material information included in the first instruction, the tablet personal computer imports the process contour data of the sweater into plate making software, and the plate making software generates a contour design drawing of the sweater according to the process contour data. The profile design drawing comprises knitting data of all parts of the sweater, the panel personal computer can receive instructions to adjust the profile and the size of the sweater in the profile design drawing, and the knitting data of all parts of the sweater are modified according to the adjusted profile design drawing.

In other embodiments, the device for obtaining the first instruction can lead the fabric process contour data in the first instruction into other software which can generate the fabric contour design drawing. The device can also import the process contour data of the fabric into the cloud server to generate the fabric contour design drawing, and the device only needs to acquire the first instruction to generate the fabric contour design drawing according to the fabric process contour data in the instruction and can receive the instruction to adjust the contour design drawing, and the device is not limited herein.

S2022: a filler material design interface is generated based on the filler material.

In a specific embodiment, the device for acquiring the first instruction is a tablet computer, and the fabric is a sweater. After the sweater object contour design drawing is generated by the tablet personal computer according to the sweater process contour data in the first instruction, a design interface containing filling material information is generated according to the filling material information in the first instruction, and the sweater design drawing is used as a top layer, the design interface containing the filling material information is used as a bottom layer, and the design drawing of the sweater is generated.

In this embodiment, the execution sequence of steps S2021 and S2022 can be freely adjusted, and both steps can be executed simultaneously or sequentially. It is only necessary that the fabric design obtained after the steps S2021 and S2022 are performed is that the outline design of the fabric is located on the upper layer of the filling material design interface of the fabric, and the light transmittance of the outline design of the fabric is greater than the light transmittance of the filling material design interface of the fabric, which is not limited herein.

In the above embodiment, the light transmittance of the sweater outline design chart is greater than the light transmittance of the design interface of the filling material information of the fabric, wherein the light transmittances of the sweater outline design chart and the design interface of the filling material information of the fabric can be adjusted as required, and a user can only see the design interface containing the filling material information through the outline design chart, which is not limited herein.

It should be noted that S2021 and S2022 are only a logical execution sequence, and in an actual process, S2022 may be executed first, and then S2021 may be executed, and in some specific apparatuses, both may also be executed at the same time, which is not limited herein.

Further, since the simulated design drawings are sometimes not perfect, such as improper sizes or color mismatch, the initially generated design drawings need to be modified. Referring further to fig. 2, step S203 modified according to the design drawing is also required to be performed after step 2021 or 2022.

For clarity of the above steps, please refer to fig. 3 in detail, fig. 3 is a schematic flowchart of an embodiment of step S203 in fig. 2 for modifying according to a design diagram, and the method includes the following steps:

s301: receiving a second instruction for modifying the design drawing; wherein the second instruction comprises a location of the corresponding modification and a modified content; wherein the positions of the filling material and the contour design can be switched with each other.

S302: modifying the design drawing based on the second instruction.

In a specific embodiment, taking the device receiving the first instruction as a tablet computer and the fabric as a sweater, the user sends a second instruction according to the design effect of the design drawing of the fabric, and the tablet computer receives the second instruction to modify the design drawing of the sweater, wherein the second instruction comprises a position and content of the corresponding modification on the design drawing of the sweater. And the tablet personal computer switches the outline design drawing and the filling material design interface in the design drawing according to the instruction, so that the outline design drawing is positioned on the upper layer of the filling material design interface. And modifying the process contour data of the fabric according to the corresponding modification content for the corresponding position of the sweater contour of the contour design drawing to obtain the modified contour design drawing.

In the present embodiment, the apparatus receives the second command, modifies the dimensions of the fabric portions in the contour design drawing based on the command, and calculates the process contour data based on the modified dimensions of the fabric portions to generate a new contour design drawing.

In another specific embodiment, taking the device receiving the first instruction as a tablet computer and the fabric as a sweater, the user sends a second instruction according to the design effect of the design drawing of the fabric, and the tablet computer receives the second instruction to modify the design drawing of the sweater, wherein the second instruction includes a position and content of the corresponding modification on the design drawing of the sweater. And the panel computer switches the outline design drawing and the filling material design interface in the design drawing according to the instruction, so that the filling material design interface of the sweater is positioned at the upper layer of the outline design drawing. And modifying the corresponding modification position of the filling material design interface according to the corresponding modification content. And the tablet computer generates a modified filling material design interface according to the second instruction.

In this embodiment, the apparatus receives the second command, and modifies at least one of the material, pattern, and color of the filler material at the filler material design interface of the fabric according to the second command to obtain a new filler material design interface of the fabric.

S303: and compiling according to the modified design drawing to generate a computer-on file.

In a specific embodiment, the device for receiving the first instruction and the second instruction is a tablet computer, and the fabric is a sweater. After the design drawing of the sweater can satisfy the user, the tablet personal computer saves the modified design drawing of the sweater and generates a machine-on file according to the design drawing, wherein the type and the content of the machine-on file can be determined according to the type of the machine which needs to execute the sweater weaving work and the type of the file which can be identified and executed, and the method is not limited herein.

The beneficial effect of this application is: different from the situation of the prior art, after the first instruction comprising the fabric characteristic data is obtained, the contour design drawing of the fabric is generated based on the process contour data contained in the fabric characteristic data, the filling material information in the fabric characteristic data is used as the bottom layer, the contour design drawing is used as the top layer to form the design drawing of the fabric, the light transmittance of the contour design drawing is greater than that of the filling material, the contour design drawing and the filling material can be displayed in a superposed mode, the superposed sequence of the contour design drawing and the filling material is switched according to the fabric design effect, the two are modified, the drawing time of the fabric design drawing is saved, and the design efficiency is improved.

Referring to fig. 4, fig. 4 is a schematic structural diagram of an embodiment of the fabric design system of the present application.

The fabric design system of the present application comprises: communication circuit 41, memory 43, processor 42. The processor 42 is coupled to the communication circuit 41 and the memory 43, respectively, wherein the communication circuit 41 is used for obtaining and transmitting instructions, the memory 43 is used for storing process contour data of the fabric, information of the filling material, a contour design diagram, a fabric design diagram, a computer file and a computer program executed by the processor 42, and when the computer program is executed by the processor 42, the fabric design method as described below is implemented.

In this embodiment, in order to facilitate drawing of the fabric design drawing, the processor 42 needs to acquire the characteristic data of the fabric related to the fabric design drawing to be drawn through the communication circuit 41 before drawing. Wherein the characteristic data of the fabric comprises process characteristic data of the fabric and information of the filling material.

In this embodiment, the information including the fabric characteristic data is sent to the fabric design system performing the drawing of the fabric design drawing in the form of the first instruction, wherein the fabric design system for acquiring the first instruction is a tablet computer. In other embodiments, the fabric design system comprises a desktop computer, a notebook computer, a smart phone, a robot, a server, and the like, which can obtain an instruction including fabric characteristic data and perform corresponding operation according to the instruction.

In this embodiment, the types of fabrics that can be used to draw the fabric design drawing on the fabric design system include bedding such as a quilt cover, a pillow case, a pillow towel, a bed sheet, a bed cover, a blanket, a thread blanket, and a towel blanket, and knitted clothing such as a woolen sweater, a sweater, an undershirt, a chiffon shirt, and a shirt, and the fabric is a product of a process of forming loops from various raw materials and types of yarns by using a knitting needle, and then connecting the loops to form a knitted fabric, which is not described herein again.

In one specific embodiment, for example, the device is a tablet computer and the fabric is a sweater, the processor 42 obtains a first instruction through the communication circuit 41, and performs sweater design drawing according to the first instruction. The first instructions include process contour data for the sweater and information for the filling material. The technical outline data of the sweater is compiled data of all parts of the sweater calculated according to the sizes of all the parts of the sweater, such as: 279 turns on the shoulder, 75 needles, 16 needles, 370 needles on the waist, 19 turns on the swing, etc. The filling material information is at least one of material, pattern and color of the sweater.

In the above embodiment, the process contour data of the fabric includes the knitting contour data of the fabric calculated from the sizes of the respective portions of the fabric. Wherein, the sizes of all parts of the fabric comprise at least one of the chest circumference, the shoulder width, the arm length and the waist circumference of the fabric to express the information of the fabric appearance. In other embodiments, the size of each part of the fabric may be information for expressing the outer shape and size of the fabric, such as length, width, arc, angle, side length, thickness, and the like, and is not limited herein. After acquiring the information, the processor 42 calculates knitting data of each part of the fabric according to the information, that is, knitting profile data of the fabric.

In the above embodiment, the filling material information is a fabric style that realizes a specific fabric effect by different yarn colors and stitches, and is expressed by at least one of a material, a pattern, and a color of the filling material in the design drawing, wherein the material of the fabric may be natural fibers such as wool, rabbit hair, and cotton, or synthetic fibers such as acrylic fiber, polyester fiber, rayon, and rayon. The patterns of the fabric can be weaving patterns such as hank, ribbing, kalanchoe, jacquard and the like. The color of the fabric comprises red, blue, yellow and other colors which can be recognized by human eyes. In other embodiments, the information of the filled material may be information of other filled materials that can represent the fabric design effect, and is not described herein again.

In a specific embodiment, the device receiving the first instruction is a tablet computer, and the fabric is a sweater. And after receiving the sweater process contour data and the filling material information included in the first instruction, the tablet personal computer imports the process contour data of the sweater into plate making software, and the plate making software generates a contour design drawing of the sweater according to the process contour data. The profile design drawing comprises knitting data of all parts of the sweater, the panel personal computer can receive instructions to adjust the profile and the size of the sweater in the profile design drawing, and the knitting data of all parts of the sweater are modified according to the adjusted profile design drawing.

In other embodiments, the processor 42, which obtains the first instruction via the communication circuit 41, may import the fabric process contour data in the first instruction into other software that may generate the fabric contour design drawing. The processor 42 may also import the process contour data of the fabric into the cloud server to perform an operation of generating a fabric contour design drawing, and only the device that acquires the process contour data of the fabric may generate the fabric contour design drawing according to the fabric process contour data in the instruction, and may receive the instruction to adjust the contour design drawing, which is not limited herein.

In a specific embodiment, the device for acquiring the first instruction is a tablet computer, and the fabric is a sweater. After the processor 42 generates the sweater contour design drawing according to the sweater process contour data in the first instruction, the design interface containing the filling material information is generated according to the filling material information in the first instruction, and the design drawing of the sweater is generated by taking the sweater contour design drawing as the top layer and the design interface containing the filling material information as the bottom layer.

In the above embodiment, the light transmittance of the sweater outline design chart is greater than the light transmittance of the design interface containing the filling material information, wherein the light transmittances of the sweater outline design chart and the design interface containing the filling material information can be adjusted as required, and a user can see the design interface containing the filling material information through the sweater outline design chart, which is not limited herein.

After generating the design drawing of the fabric, the processor 42 further needs to adjust the contour design drawing of the fabric and the design interface containing the filling material information through the communication circuit 41 to adjust the design effect of the design drawing of the fabric, so as to obtain the final design drawing of the fabric.

To further clarify the description of the above-described fabric method performed by processor 42, the following is a detailed description of the fabric design method performed by processor 42.

In this embodiment, in order to facilitate drawing of the fabric design drawing, the processor 42 needs to acquire the characteristic data of the fabric related to the fabric design drawing to be drawn through the communication circuit 41 before drawing. Wherein the characteristic data of the fabric comprises process characteristic data of the fabric and information of the filling material.

In this embodiment, the information including the fabric characteristic data is sent to the fabric design system performing the drawing of the fabric design drawing in the form of the first instruction, wherein the fabric design system for acquiring the first instruction is a tablet computer. In other embodiments, the fabric design system comprises a desktop computer, a notebook computer, a smart phone, a robot, a server, and other devices with computing capabilities that can obtain instructions including fabric characteristic data and perform corresponding operations according to the instructions.

In this embodiment, the types of fabrics that can be used to draw the fabric design drawing include bedding such as a quilt cover, a pillow case, a pillow towel, a bed sheet, a bed cover, a blanket, a thread blanket, and a towel blanket, and knitted clothing such as a woolen sweater, a sweater, an undershirt, a chiffon shirt, and a shirt, and the fabric is a product of a process in which yarns of various raw materials and varieties are formed into loops by using a knitting needle and then connected into knitted fabrics by a loop, and therefore, the description thereof is omitted.

In one embodiment, taking the device as a tablet computer and the fabric as a sweater as an example, the processor 42 obtains a first instruction through the communication circuit 41, and performs sweater design drawing according to the first instruction. The first instructions include process contour data for the sweater and information for the filling material. The technical outline data of the sweater is compiled data of all parts of the sweater calculated according to the sizes of all the parts of the sweater, such as: 279 turns on the shoulder, 75 needles, 16 needles, 370 needles on the waist, 19 turns on the swing, etc. The filling material information is at least one of material, pattern and color of the sweater.

In the above embodiment, the process contour data of the fabric includes the knitting contour data of the fabric calculated from the sizes of the respective portions of the fabric. Wherein, the sizes of all parts of the fabric comprise at least one of the chest circumference, the shoulder width, the arm length and the waist circumference of the fabric to express the information of the fabric appearance. In other embodiments, the size of each part of the fabric may be information for expressing the outer shape and size of the fabric, such as length, width, arc, angle, side length, thickness, and the like, and is not limited herein. After acquiring the information, the processor 42 calculates the knitting data of each part of the fabric according to the information, that is, the knitting profile data of the fabric.

In the above embodiment, the filling material information is a fabric style that realizes a specific fabric effect by different yarn colors and stitches, and is expressed by at least one of a material, a pattern, and a color of the filling material in the design drawing, wherein the material of the fabric may be natural fibers such as wool, rabbit hair, and cotton, or synthetic fibers such as acrylic fiber, polyester fiber, rayon, and rayon. The patterns of the fabric can be weaving patterns such as hank, ribbing, kalanchoe, jacquard and the like. The color of the fabric comprises red, blue, yellow and other colors which can be recognized by human eyes. In other embodiments, the information of the filled material may be information of other filled materials that can represent the fabric design effect, and is not described herein again.

After acquiring the first instruction, the processor 42 needs to generate a profile design drawing of the fabric according to the process profile data of the fabric included in the first instruction, and generate a filling material design interface according to the filling material information in the first instruction.

In a specific embodiment, the device receiving the first instruction is a tablet computer, and the fabric is a sweater. After receiving the sweater process contour data and the filling material information included in the first instruction, the processor 42 imports the process contour data of the sweater into plate making software, and the plate making software generates a contour design drawing of the sweater according to the process contour data. The outline design drawing comprises knitting data of each part of the sweater, and the processor 42 can receive an instruction through the communication circuit 41 to adjust the outline and the size of the sweater in the outline design drawing and modify the knitting data of each part of the sweater according to the adjusted outline design drawing.

In other embodiments, the processor 42 may import the fabric process contour data in the first instruction into other software that can generate the fabric contour design after acquiring the first instruction. The processor 42 may also import the process contour data of the fabric into the cloud server to perform an operation of generating a fabric contour design drawing, and only the device that acquires the fabric process contour data may generate the fabric contour design drawing according to the fabric process contour data in the instruction, and may receive the instruction to adjust the contour design drawing, which is not limited herein.

In a specific embodiment, the device for acquiring the first instruction is a tablet computer, and the fabric is a sweater. After the processor 42 generates the sweater object contour design drawing according to the sweater process contour data in the first instruction, the design interface containing the filling material information is generated according to the filling material information in the first instruction, and the design drawing of the sweater is generated by taking the sweater contour design drawing as the top layer and the design interface containing the filling material information as the bottom layer.

In the embodiment, the sequence of generating the fabric contour design drawing and the sequence of generating the design interface containing the filling material information can be freely adjusted, and the two steps can be executed simultaneously or sequentially. The outline design drawing of the fabric in the fabric design drawing obtained after the execution of the two is located on the upper layer of the filling material design interface of the fabric, and the light transmittance of the outline design drawing of the fabric is larger than that of the filling material design interface of the fabric, which is not limited herein.

In the above embodiment, the light transmittance of the sweater outline design chart is greater than the light transmittance of the design interface of the filling material information of the fabric, wherein the light transmittances of the sweater outline design chart and the design interface of the filling material information of the fabric can be adjusted as required, and a user can only see the design interface containing the filling material information through the outline design chart, which is not limited herein.

Further, since the simulated design drawings are sometimes not perfect, such as improper sizes or color mismatch, the initially generated design drawings need to be modified.

In one specific embodiment, the device for receiving the first instruction is a tablet computer, and the fabric is a sweater. The user sends a second instruction to the communication circuit 41 according to the design effect of the fabric design drawing, and the processor 42 receives the second instruction sent by the communication circuit 41 and modifies the design drawing of the sweater according to the instruction, wherein the second instruction comprises the position and the content of the sweater on the design drawing which are correspondingly modified. The processor 42 switches the contour design drawing and the filling material design interface in the design drawing according to the instruction, so that the contour design drawing is positioned on the upper layer of the filling material design interface. And modifying the process contour data of the fabric according to the corresponding modification content for the corresponding position of the sweater contour of the contour design drawing to obtain the modified contour design drawing.

In the present embodiment, the processor 42 receives the second command, modifies the dimensions of the fabric portions in the contour map based on the command, calculates process contour data based on the modified dimensions of the fabric portions, and generates a new contour map.

In one embodiment, the fabric design system receiving the first instruction is a tablet computer, and the fabric is a sweater. The user sends a second instruction to the communication circuit 41 according to the design effect of the fabric design drawing, and the processor 42 receives the second instruction sent by the communication circuit 41 and modifies the design drawing of the sweater according to the instruction, wherein the second instruction comprises the position and the content of the sweater on the design drawing which are correspondingly modified. The processor 42 switches the outline design drawing and the filling material design interface in the design drawing according to the instruction, so that the filling material design interface of the sweater is positioned at the upper layer of the outline design drawing. And modifying the corresponding modification position of the filling material design interface according to the corresponding modification content. The processor 42 generates a modified filler material design interface in accordance with the second instructions.

In this embodiment, the processor 42 receives the second instruction, and modifies at least one of the material, pattern, and color of the filler material at the filler material design interface of the fabric according to the second instruction to obtain a new filler material design interface of the fabric.

In one embodiment, the fabric design system receiving the first and second instructions is a tablet computer and the fabric is a sweater. After the design drawing of the sweater can satisfy the user, the memory 43 stores the modified design drawing of the sweater, and the processor 42 weaves the sweater according to the design drawing to generate a machine-on file which is stored in the memory 43, wherein the type and the content of the machine-on file can be determined according to the type of the machine which needs to execute the work of weaving the sweater and the type of the file which can be identified and executed can be determined, and the method is not limited herein.

The beneficial effect of this application is: different from the situation of the prior art, after the first instruction comprising the fabric characteristic data is obtained, the contour design drawing of the fabric is generated based on the process contour data contained in the fabric characteristic data, the filling material information in the fabric characteristic data is used as the bottom layer, the contour design drawing is used as the top layer to form the design drawing of the fabric, the light transmittance of the contour design drawing is greater than that of the filling material, the contour design drawing and the filling material can be displayed in a superposed mode, the superposed sequence of the contour design drawing and the filling material is switched according to the fabric design effect, the two are modified, the drawing time of the fabric design drawing is saved, and the design efficiency is improved.

Referring to fig. 5, fig. 5 is a schematic structural diagram of an embodiment of a memory device with a memory function according to the present application.

The means 50 with storage function stores therein program data 51, the program data 51 being at least one program or instruction, the program data 51 being for implementing any of the above-described fabric design methods. In one embodiment, the apparatus with a storage function may be a memory chip in a terminal, a hard disk, or a removable hard disk or other readable and writable storage tool such as a flash memory, an optical disk, or the like, and may also be a server or the like.

Different from the situation of the prior art, after the first instruction comprising the fabric characteristic data is obtained, the contour design drawing of the fabric is generated based on the process contour data contained in the fabric characteristic data, the filling material information in the fabric characteristic data is used as the bottom layer, the contour design drawing is used as the top layer to form the design drawing of the fabric, the light transmittance of the contour design drawing is greater than that of the filling material, the contour design drawing and the filling material can be displayed in a superposed mode, the superposed sequence of the contour design drawing and the filling material is switched according to the fabric design effect, the two are modified, the drawing time of the fabric design drawing is saved, and the design efficiency is improved.

It should be noted that the above embodiments all belong to the same inventive concept, and the description of each embodiment has a particular emphasis, and a description of each embodiment may refer to a description of another embodiment, which is not described in detail.

In the several embodiments provided in the present application, it should be understood that the disclosed method and apparatus may be implemented in other manners. For example, the above-described apparatus embodiments are merely illustrative, and for example, a division of a processor, a memory, or a communication circuit is merely one logical division, and an actual implementation may have another division, for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may be in an electrical, mechanical or other form.

Units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the embodiment.

In addition, functional units in the embodiments of the present application may be integrated into one processing unit, or each unit may exist alone physically, or two or more units may be integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.

The integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present application may be substantially implemented or contributed to by the prior art, or all or part of the technical solution may be embodied in a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, a network device, or the like) or a processor (processor) to execute all or part of the steps of the method according to the embodiments of the present application. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.

The above description is only for the purpose of illustrating embodiments of the present application and is not intended to limit the scope of the present application, and all modifications of equivalent structures and equivalent processes, which are made by the contents of the specification and the drawings of the present application or are directly or indirectly applied to other related technical fields, are also included in the scope of the present application.

Claims (9)

1. A method of designing a fabric, comprising:

receiving a first instruction comprising characteristic data of the fabric, wherein the characteristic data comprises process contour data of the fabric and information of a filling material;

generating a profile plan view of the fabric based on the process profile data;

taking the filling material as a bottom layer, and forming a design drawing of the fabric for a top layer by using the contour design drawing of the fabric; wherein the light transmittance of the contour design is greater than the light transmittance of the filler material;

receiving a second instruction for modifying the design drawing; wherein the second instruction comprises a location of the corresponding modification and a modified content; wherein the positions of the filling material and the outline design chart can be switched with each other;

modifying the design drawing based on the second instruction.

2. The method of claim 1, wherein the step of modifying the design drawing based on the second instruction specifically comprises:

modifying the process profile data of the fabric based on the second instructions.

3. The fabric design method according to claim 1 or 2, wherein the process contour data comprises at least one of a chest circumference, a shoulder width, an arm length, and a waist circumference.

4. The method of claim 1, wherein the step of modifying the design drawing based on the second instruction specifically comprises:

and modifying at least one of the material, the pattern and the color of the filling material based on the second instruction.

5. The fabric design method of claim 4, wherein the pattern comprises any one of a hank, a rib, an arabian and a jacquard.

6. The method of claim 1, wherein the step of modifying the design drawing based on the second instruction is further followed by:

and weaving according to the modified design drawing to generate the computer-on file.

7. The method of claim 1 or 2, wherein the step of modifying the design drawing based on the second instruction is further followed by:

and saving the design drawing.

8. A fabric design system, comprising: the communication circuit, the memorizer, the processor, the said processor couples to said communication circuit and said memorizer separately;

the communication circuit is used for acquiring and transmitting instructions;

the memory is used for storing the process contour data of the fabric, the information of the filling material, the contour design drawing, the fabric design drawing, the on-machine file and the computer program executed by the processor;

the processor, when executing the computer program, implementing the fabric design method of any of claims 1-7.

9. An apparatus having a memory function, characterized in that program data are stored, which program data can be executed to carry out the steps in the fabric design method according to any one of claims 1-7.

Images