CN113191846A - Distributed intelligent clothing making system - Google Patents

Abstract

The invention provides a distributed intelligent clothing system. The distributed intelligent garment system comprises: the order acquisition system is used for processing order information and recording the order information; and the design and research system is used for designing and researching clothes according to the order information. According to the distributed intelligent clothing system, the clothing system is converted from physical to digital, the processes of designing and fitting the clothing system can be realized through system software, compared with the traditional clothing system, repeated manuscript drawing is avoided, the design can be easily completed through the system software, different wearers can be simulated through the simulated clothing system, actual engagement of the wearers is not needed, simultaneous fitting of multiple persons can be realized through big data, efficient fitting operation is realized, and the production requirements of modern intelligent factories can be better met.

Description

Distributed intelligent clothing making system

Technical Field

The invention relates to the field of garment making systems, in particular to a distributed intelligent garment making system.

Background

The clothes are a general term for clothes, shoes, ornaments and the like, and are mostly clothes. The definition of a garment in the national standard is: the product is also called as clothes, which is sewed and worn on the human body to play the role of protection and decoration. Clothing has emerged in the early stages of the development of human society, when ancient people made some materials into coarse "clothing" that was worn. The first clothes of humans were made of animal hides, while the earliest "fabrics" of the wraps were made of fibers such as hemp and grass. For society, clothing is a necessity for covering and decorating, and is not only worn, but also represents identity, a life attitude and individual charm.

In the prior art, in the process of making clothes, generally, the design is firstly carried out, then the fitting is carried out, and then the production is put into production, and in the process of designing the traditional clothes making system, a designer needs to repeatedly draw manuscripts for a plurality of times to determine the styles and the like to meet the requirements, and needs to repeatedly color to select proper colors, so that the development progress of clothes is slow, the consumed manpower and financial resources are large, and the production requirements of modern intelligent factories cannot be met.

Therefore, it is necessary to provide a distributed intelligent clothing system to solve the above technical problems.

Disclosure of Invention

The invention provides a distributed intelligent clothing making system, which solves the problems that the traditional clothing making system is slow in research and development progress, large in consumed manpower and financial resources and incapable of meeting the production requirements of a modern intelligent factory.

In order to solve the above technical problem, the present invention provides a distributed intelligent clothing system, comprising:

the order acquisition system is used for processing order information and recording the order information;

a design and development system for designing and developing the garment according to the order information;

the fitting system adopts systematic simulation to try on the researched and developed clothes so as to ensure the actual wearing effect;

the clothing system is used for regulating and controlling the clothing in the manufacturing process;

the paperless control system is used for realizing paperless of the clothing industry and realizing environmental protection and cleaning;

an order delivery system for controlling delivery of the garment.

Compared with the traditional clothes making system, the system can realize clothes design in a short time.

The order obtaining system comprises an order quantity obtaining module for obtaining the order quantity, an order clothing requirement obtaining module for obtaining the order clothing requirements and an order completion time obtaining module for obtaining the completion time.

The order quantity, the requirement and the completion time can be conveniently recorded according to the requirement, so that the working process of the clothing system can be reasonably controlled.

The design and development system comprises a material matching module for garment material control, a style matching module for garment style control, and a color matching module for garment color control.

The system software can control the variables such as material, style and color to be adjusted when the clothes are designed, and the manuscripts do not need to be drawn repeatedly frequently.

The fitting system comprises a gender and age data simulation module for simulating the gender and age of a fitting person, a body type data simulation module for simulating the body type of the fitting person, a clothes size simulation module for simulating the size of clothes, a cloth material data simulation module for simulating the material of the clothes, a color data simulation module for simulating the color of the clothes and a three-dimensional imaging simulation module for simulating the fitting of a real person.

The simulation fitting is convenient to realize, no real fitting is needed, and the research and development cost of the clothes is reduced.

The garment making system comprises a non-ironing automatic production line control module for controlling non-ironing production of clothes, a low-water-level environment-friendly energy-saving yarn dyeing control module for controlling yarn dyeing, a dye vat water level control module for controlling the water level of a dye vat, a dyeing process control module for controlling a dyeing process, a cutting control module for controlling cutting and processing, and a processing control module.

The clothing making process is controlled, and the environment-friendly making processing is realized.

The paperless control system comprises an order electronization module, a sample plate electronization module and a sample display electronization module.

The method realizes paperless, reduces design paper, order paper and the like, and realizes environmental protection.

The order delivery system comprises a qualification testing control module and a quantity checking control module.

The fitting system further comprises a comprehensive scoring module.

The design method is used for scoring in fitting so as to determine the optimal design scheme.

The fitting system further comprises a finished product preview module.

The designed clothes can be previewed.

The garment system further comprises an emergency handling control module.

Compared with the related art, the distributed intelligent clothing system provided by the invention has the following beneficial effects:

the invention provides a distributed intelligent clothing system, which can realize the design, fitting and other processes of the clothing system through system software by converting the clothing system from physical to digital, avoids repeated manuscript drawing compared with the traditional clothing system, can easily complete the design through the system software, can simulate different wearers through the simulated fitting system, does not need to actually engage the wearers, can realize simultaneous fitting of a plurality of people through big data, realizes efficient fitting operation, avoids slow clothes research and development progress of the traditional clothing system, consumes large manpower and financial resources, and can better adapt to the production requirements of modern intelligent factories.

Drawings

FIG. 1 is a system schematic block diagram of a distributed intelligent garment system provided by the present invention;

FIG. 2 is a system schematic block diagram of the order taking system shown in FIG. 1;

FIG. 3 is a system schematic block diagram of the design and development system shown in FIG. 1;

FIG. 4 is a system schematic block diagram of the fitting system shown in FIG. 1;

FIG. 5 is a system schematic block diagram of the garment system of FIG. 1;

FIG. 6 is a system schematic block diagram of the paperless control system shown in FIG. 1;

FIG. 7 is a system schematic block diagram of the order delivery system shown in FIG. 1.

Detailed Description

The invention is further described with reference to the following figures and embodiments.

Please refer to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6 and fig. 7 in combination, wherein fig. 1 is a schematic block diagram of a distributed intelligent clothing-making system provided by the present invention; FIG. 2 is a system schematic block diagram of the order taking system shown in FIG. 1; FIG. 3 is a system schematic block diagram of the design and development system shown in FIG. 1; FIG. 4 is a system schematic block diagram of the fitting system shown in FIG. 1; FIG. 5 is a system schematic block diagram of the garment system of FIG. 1; FIG. 6 is a system schematic block diagram of the paperless control system shown in FIG. 1; FIG. 7 is a system schematic block diagram of the order delivery system shown in FIG. 1. A distributed intelligent garment system, comprising:

the order acquisition system is used for processing order information and recording the order information; the order obtaining system comprises an order quantity obtaining module for obtaining order quantity, an order tailoring requirement obtaining module for obtaining order tailoring requirements and an order completion time obtaining module for obtaining completion time, wherein the order quantity obtaining module comprises a manual input unit so that a customer can manually input specific order quantity, the order tailoring requirement obtaining module comprises a color obtaining unit for obtaining clothes color required by the customer, and a style obtaining unit for recording the style required by the customer and obtaining the clothes color through picture identification and manual input, the order completion time obtaining module gives preset values according to design difficulty, manufacturing difficulty and quantity of clothes and determining the specific completion time after the customer consults, and the completion time given by the customer needs to be systematically calculated again, to determine if completion is possible and to inform the customer of the result.

A design and development system for designing and developing the garment according to the order information; the design and development system comprises a material matching module for controlling the clothes materials, a style matching module for controlling the clothes styles and a color matching module for controlling the clothes colors, wherein the material matching module acquires various clothes materials on the market by utilizing big data, selects and develops the clothes materials for selection by combining the production capacity of a factory, and can automatically simulate relevant material characteristics, the style matching module can be integrated by combining the existing styles and provides the corresponding simulated styles for direct reference and application of designers, and the color matching module adopts a multispectral imaging color technology to realize simulation of various colors and can be used by designers.

The fitting system adopts systematic simulation to try on the researched and developed clothes so as to ensure the actual wearing effect; the fitting system comprises a gender and age data simulation module for simulating the gender and age of a fitting person, a body shape data simulation module for simulating the body shape of the fitting person, a clothes size simulation module for simulating the size of clothes, a cloth material data simulation module for simulating the material of the clothes, a color data simulation module for simulating the color of the clothes and a three-dimensional imaging simulation module for simulating the fitting of a real person; the fitting system can customize the age, height and sex of a fitting person according to fitting requirements, and can simulate the designed clothes to be worn, so that the fitting effect of fitting by a real person can be obtained.

The clothing system is used for regulating and controlling the clothing in the manufacturing process; the garment making system comprises a non-ironing automatic production line control module for controlling non-ironing production of clothes, a low-water-level environment-friendly energy-saving yarn dyeing control module for controlling yarn dyeing, a dye vat water level control module for controlling the water level of a dye vat, a dyeing process control module for controlling a dyeing process, a cutting control module and a processing control module for controlling cutting and processing, the non-ironing automatic production can be realized through the control of the garment making system, and the automatic control of the water level is realized through a water level detection unit in the low-water-level environment-friendly energy-saving yarn dyeing control module without artificial monitoring, and meanwhile, more resources are saved.

The paperless control system is used for realizing paperless of the clothing industry and realizing environmental protection and cleaning; the paperless control system comprises an order electronization module, a sample electronization module and a sample display electronization module, and paper which is possibly used in the clothes making process is avoided through full systematization design and the like, so that paperless production is realized.

An order delivery system for controlling delivery of the laundry; the order delivery system comprises a qualification checking control module and a quantity checking control module, can check before order delivery, summarize product quality by counting checked data, and can check quantity to avoid errors.

The technical difficulties of solving the technical problems of multi-spectral imaging color measurement technology of cloth, cloth material data acquisition technology, three-dimensional shape acquisition technology of real clothes, high reality drawing technology of virtual clothes and the like in the virtual fitting technology are solved, and the technical difficulties of realizing paperless ordering and pull production plant type simulation solution by utilizing the RFID technology are as follows: information of the internal system and the external system is in butt joint; designing a user information interface of the tablet computer; the electronic bill making application accords with the production flow of a production department; how to utilize this system to break through traditional push type production etc. and the development of non-ironing automation line and the low water level environmental protection energy-conserving yarn dyeing technical difficulty that plans to solve have: verifying the effectiveness of the process and the technology of the non-ironing automatic production line in batch production; reasonably configuring a new large-goods non-ironing production line; improvement of a low water level environment-friendly energy-saving yarn dyeing technology control program, a dye vat water level device and process control; setting dyeing process parameters and the like, drawing the virtual garment with high sense of reality as guidance, combining technologies such as multispectral imaging color measurement, fabric material attribute acquisition, garment three-dimensional shape acquisition and the like, realizing a unified solution of color and appearance in each link from real fabric to virtual fitting, realizing the application of electronic ordering by utilizing the extension of an RFID technology, realizing the synchronous updating of ordering information and realizing a pull type production mode which accords with lean production in the garment manufacturing industry; meanwhile, the error correction problem of the ultrahigh frequency RFID is solved, the data acquisition speed and accuracy are greatly improved, the non-ironing automatic production line achieves the same style of the non-ironing shirt produced by the ready-made clothes cross-linking method by adopting an EDP method, the efficiency can be obviously improved, the labor is reduced, and the cost and the energy consumption are reduced.

Second embodiment:

the fitting system adopts systematic simulation to try on the researched and developed clothes so as to ensure the actual wearing effect; the fitting system comprises a gender and age data simulation module for simulating the gender and age of a fitting person, a body type data simulation module for simulating the body type of the fitting person, a clothes size simulation module for simulating the size of clothes, a cloth material data simulation module for simulating the material of the clothes, a color data simulation module for simulating the color of the clothes and a three-dimensional imaging simulation module for simulating fitting of a real person, and further comprises a comprehensive grading module, so that market research can be carried out through the grading system, and the designed clothes are more popular.

The third embodiment:

the fitting system adopts systematic simulation to try on the researched and developed clothes so as to ensure the actual wearing effect; the fitting system comprises a gender and age data simulation module for simulating the gender and age of a fitting person, a body type data simulation module for simulating the body type of the fitting person, a clothes size simulation module for simulating the size of clothes, a cloth material data simulation module for simulating the material of the clothes, a color data simulation module for simulating the color of the clothes and a three-dimensional imaging simulation module for simulating the fitting of a real person, and further comprises a finished product preview module, so that the wearing effect of a finished product can be known before the finished product is manufactured through finished product preview, and the defective rate of the product is greatly reduced.

The fourth embodiment:

the clothing system is used for regulating and controlling the clothing in the manufacturing process; the garment making system comprises a non-ironing automatic production line control module for controlling non-ironing production of clothes, a low-water-level environment-friendly energy-saving yarn dyeing control module for controlling yarn dyeing, a dye vat water level control module for controlling the water level of a dye vat, a dyeing process control module for controlling a dyeing process, a cutting control module for controlling cutting and processing, and an emergency processing control module, wherein the emergency processing control module can set emergency processing aiming at modules such as water level detection and the like, and the emergency processing module can reduce loss when monitoring fails.

Compared with the related art, the distributed intelligent clothing system provided by the invention has the following beneficial effects:

through changing the garment system from the material object to the digitization, the design of the garment system, the fitting and other processes can be realized through system software, compared with the traditional garment system, repeated manuscript drawing is avoided, the design can be easily completed through the system software, and through the simulated fitting system, different wearers can be simulated, actual engagement of the wearers is not needed, fitting of multiple persons can be realized through big data, efficient fitting operation is realized, slow clothes research and development progress of the traditional garment system is avoided, consumed manpower and financial resources are large, and the production requirements of modern intelligent factories can be better adapted.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. A distributed intelligent garment making system, comprising:

the order acquisition system is used for processing order information and recording the order information;

a design and development system for designing and developing the garment according to the order information;

the fitting system adopts systematic simulation to try on the researched and developed clothes so as to ensure the actual wearing effect;

the clothing system is used for regulating and controlling the clothing in the manufacturing process;

the paperless control system is used for realizing paperless of the clothing industry and realizing environmental protection and cleaning;

an order delivery system for controlling delivery of the garment.

2. The distributed intelligent clothing system of claim 1, wherein the order taking system comprises an order quantity taking module for taking an order quantity, an order clothing requirement taking module for taking an order clothing requirement, and an order completion time taking module for taking a completion time.

3. The distributed intelligent clothing system of claim 2, wherein the design and development system comprises a materials matching module for clothing materials control, a style matching module for clothing style control, and a color matching module for clothing color control.

4. The distributed intelligent clothing system of claim 1, wherein the fitting system comprises a gender and age data simulation module for simulating the gender and age of a fitter, a body shape data simulation module for simulating the body shape of the fitter, a clothing size simulation module for simulating the dimensions of clothing, a cloth material data simulation module for simulating the material of clothing, a color data simulation module for simulating the color of clothing, and a three-dimensional imaging simulation module for simulating fitting of a real person.

5. The distributed intelligent clothing system of claim 1, wherein the clothing system comprises a non-ironing automatic production line control module for controlling non-ironing production of clothing, a low water level environment-friendly energy-saving yarn dyeing control module for controlling yarn dyeing, a dye vat water level control module for controlling let-down dye vat water level, a dyeing process control module for controlling dyeing process, and a cutting control module and a processing control module for controlling cutting and processing.

6. The distributed intelligent garment system as recited in claim 1, wherein the paperless control system comprises an order electronics module, a template electronics module, and a sample presentation electronics module.

7. The distributed intelligent garment system as recited in claim 1, wherein the order delivery system comprises a qualification control module and a quantity verification control module.

8. The distributed intelligent clothing system of claim 1, wherein the fitting system further comprises a composite scoring module.

9. The distributed intelligent clothing system of claim 1, wherein the fitting system further comprises a finish preview module.

10. The distributed intelligent garment system as recited in claim 1, further comprising an emergency treatment control module.

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