CN112486117B - Garment processing method based on automatic identification data input - Google Patents

Abstract

The invention provides a garment processing method based on automatic identification data input, which comprises the following steps: s1: receiving garment processing parameters input by a user; s2: judging whether the clothing processing parameters are complete or not; if so, go to step S5; otherwise, go to step S4; s3: matching and searching in a clothing template database based on the clothing processing parameters to obtain at least one matching processing parameter; s4: generating working parameters based on the complete garment processing parameters or the matched processing parameters; s5: starting a first cloth automatic laying system, a second garment component generating system and a third garment component jointing system based on the working parameters; s6: and storing the complete garment processing parameters into the garment template database. The technical scheme of the invention can realize automatic identification of clothing data and custom-made or flow large-scale clothing production based on user input.

Description

Garment processing method based on automatic identification data input

Technical Field

The invention belongs to the technical field of intelligent clothing production, and particularly relates to a clothing processing method based on automatic identification data input.

Background

The current traditional garment industry development mainly faces four problems: one is the challenges brought by the shortened life cycle of the clothing products and the diversification of the individual requirements. With the continuous growth of domestic intermediate-yield scale, the demands for individuation and differentiation of clothes become more and more obvious, and clothes enterprises are difficult to adapt to the rapid iteration of clothes products and the impact brought by the individuation demands. Secondly, under the continuous influence of the frequent occurrence of global black swan events, the demand of overseas markets is continuously shriveled, most garment manufacturing enterprises mainly producing foreign trade brands face difficulty in survival, and part of the enterprises are already bankruptcy and closed. Thirdly, the international competition caused by the shift of the clothing industry to overseas is intensified. With the increasing of the cost of domestic elements and the increasing of the value of RMB and other factors, the clothing industry shifts to the southeast Asia countries and regions with the advantage of the cost of the elements, and compared with domestic clothing manufacturing enterprises, the clothing industry has the advantages and the international competition is aggravated. And fourthly, the informatization foundation of the clothing enterprises is weak, and the clothing enterprises are difficult to adapt to the new transformation development requirements.

The development and change of science and technology are changing day by day, and the production mode of clothing enterprises is developing towards automation, specialization, intellectualization and informatization along with the innovation of technology. When a clothing enterprise wants to stand and stabilize the heel in an informationized large background, the enterprise cannot step in place and needs to perform transformation and upgrading. In order to improve the production efficiency, the product quality and the enterprise benefit, the intelligent garment production technology takes the place of the advantages of the intelligent garment production technology, and occupies a very important position in the whole garment manufacturing process.

The chinese patent application with application number CN202010684242.2 proposes a tailoring device for garment processing design, which comprises: the cutting machine comprises a rotating mechanism, a transmission mechanism arranged outside the rotating mechanism, a camera assembly arranged at the rear side of the transmission mechanism, a measuring mechanism driven by the transmission mechanism and a cutting table; the rotating mechanism comprises a base, a rotating column is arranged at the middle position of the base in a rotating mode, a rotating table is connected to the upper portion of the rotating column, a weight measuring table is arranged at the middle position of the upper portion of the rotating table, a weighing sensor is arranged at the lower portion of the weight measuring table, a groove is formed in the upper portion of the weight measuring table, and two measuring plates are arranged in the groove. The invention can measure the height, the body shape and the weight of the model, so that a designer can conveniently cut the cloth according to the measurement result.

Chinese patent publication CN111913567A proposes an intelligent product processing method based on remote gesture recognition control, which comprises storing a set of garment models to be processed and a customized service link website of an intelligent product processing customized platform in a mobile intelligent terminal, processing and fitting a face contour curve of a legal user according to a face image of the legal user by the mobile intelligent terminal to obtain a curve slope characteristic value corresponding to each preset face characteristic position point of the legal user, adjusting the screen brightness of the mobile intelligent terminal according to the time when the user shows an operation gesture by fitting an indoor illumination intensity real-time change curve and a screen illumination intensity real-time change curve, calling the customized service link website to be connected to the intelligent product processing customized platform according to a recognized gesture command of the legal user, and printing the garment product model selected by the user according to the gesture command of the user, the intelligent processing of the product selected by the user can be completed by utilizing the gesture made by the user and by means of the mobile intelligent terminal.

However, under large-scale customization, especially user personalized input customization, how to develop mass production and manufacture according to the personalized requirements of consumers so as to realize garment production with high production efficiency is not an effective technical scheme in the prior art.

Disclosure of Invention

In order to solve the technical problem, the invention provides a garment processing method based on automatic identification data input.

The garment processing system comprises a first production process control platform and a second production data control platform, wherein the first production process control platform comprises a first cloth automatic laying system, a second garment component generating system and a third garment component jointing system; the second production data console comprises a clothing attribute data input end; the second production data console is communicated with the clothing template database; the clothing attribute data input end is used for inputting clothing attribute data, and the clothing attribute data comprises clothing processing parameters. The second production data console controls the operating parameters of the first production process console based on different garment attribute data.

The invention also discloses a clothing processing method for realizing automatic identification data input based on the system.

The technical scheme of the invention can realize automatic identification of clothing data and custom-made or flow large-scale clothing production based on user input.

In particular, in a first aspect of the invention, a garment processing system based on automated identification data input is presented, the garment processing system comprising a first production process control station and a second production data control station, the second production data control station controlling operating parameters of the first production process control station based on different garment property data;

in a specific structure, the first production process control platform comprises a first cloth automatic laying system, a second garment component generating system and a third garment component jointing system;

the second production data console comprises a garment attribute data input;

the second production data console is communicated with the clothing template database;

the clothing attribute data input end is used for inputting clothing attribute data, and the clothing attribute data comprises clothing processing parameters;

based on the clothing processing parameters, the second generated data console generates working parameters of the first automatic cloth laying system and the second clothing component generating system;

or, based on the clothing processing parameters, the second generated data console searches corresponding clothing template parameters in the clothing template database, and the clothing template parameters are used as working parameters of the first automatic cloth laying system and the second clothing member generating system.

The second garment component generation system is used for generating template components of different components of the garment to be processed, and the template components of the different components have different sizes;

the operating parameters of the second garment component generation system include a template component composition and dimensions of different template components.

The third clothing component jointing system is used for jointing the template components of different components of the clothing to be processed, which are generated by the second clothing component generating system, to generate an integral jointing object.

The first production process control station comprises a visualization platform, wherein the visualization platform comprises a visualization interface;

the third clothing component jointing system is used for jointing the template components of different components of the clothing to be processed, which are generated by the second clothing component generating system, to generate a jointed clothing model, and the sizes of the jointed clothing model and the template components of the jointed parts are displayed on the visual interface.

The invention also adjusts the size of the template component of each combination part on the visual interface to generate an adjusted combination clothing model, and stores the size parameters of the adjusted combination clothing model into the clothing template database.

In a second aspect of the present invention, a garment processing method implemented by the garment processing system according to the first aspect is further provided, the method including:

s1: receiving garment processing parameters input by a user;

s2: judging whether the clothing processing parameters are complete or not; if so, go to step S5; otherwise, go to step S4;

s3: matching and searching in a clothing template database based on the clothing processing parameters to obtain at least one matching processing parameter;

s4: generating working parameters based on the complete garment processing parameters or the matched processing parameters;

s5: starting a first cloth automatic laying system, a second garment component generating system and a third garment component jointing system based on the working parameters;

s6: and storing the complete garment processing parameters into the garment template database.

Step S5 may be repeatedly performed to meet the customization requirement or the mass production requirement.

Based on this, the specific execution of step S5 includes:

and adjusting the sizes of the template components of the combination parts of the combination objects generated by the third clothing component combination system on the visual interface to generate an adjusted combination clothing model, and storing the size parameters of the adjusted combination clothing model into the clothing template database.

Obviously, the method of the present invention can be implemented on a computer device by an automated control system in combination with human-computer interaction means, through program instructions stored on a non-volatile medium. Accordingly, the present invention also claims a non-transitory computer readable storage medium having stored thereon computer programmed instructions for implementing the steps of the aforementioned method by a processor and executing the programmed instructions.

Further advantages of the invention will be apparent in the detailed description section in conjunction with the drawings attached hereto.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a diagram of the main body structure of a garment processing system based on automated recognition data entry in accordance with one embodiment of the present invention

FIG. 2 is a schematic view of the first system for automatically laying down a first cloth in the system of FIG. 1

FIG. 3 is a schematic diagram of an embodiment of the garment attribute data in the system of FIG. 1

FIG. 4 is a schematic illustration of the operating parameters of the second garment component generation system of the system of FIG. 1

FIG. 5 is a schematic diagram of a template member of a second garment member creation system of the system of FIG. 4 for creating different components of a garment to be manufactured

FIG. 6 is a main flow chart of a garment processing method based on automatic identification data input and implemented based on the system of FIG. 1

Detailed Description

The invention is further described with reference to the following drawings and detailed description.

Fig. 1 is a diagram of a body architecture of a garment processing system based on automated identification data entry in accordance with an embodiment of the present invention.

In fig. 1, the garment processing system includes a first production flow control station and a second production data control station that controls operating parameters of the first production flow control station based on different garment attribute data;

the first production process control platform comprises a first cloth automatic laying system, a second garment component generating system and a third garment component jointing system;

the second production data console comprises a garment attribute data input;

the second production data console is communicated with the clothing template database;

the clothing attribute data input end is used for inputting clothing attribute data, and the clothing attribute data comprises clothing processing parameters;

based on the clothing processing parameters, the second generated data console generates working parameters of the first automatic cloth laying system and the second clothing component generating system;

or, based on the clothing processing parameters, the second generated data console searches corresponding clothing template parameters in the clothing template database, and the clothing template parameters are used as working parameters of the first automatic cloth laying system and the second clothing member generating system.

In particular, on the basis of fig. 1, see fig. 2.

The first automatic cloth laying system comprises an automatic cloth laying machine, a cutting bed table with variable size and a current collection control device;

the working parameters of the automatic first cloth laying system comprise the size of the cutting bed.

In one embodiment, the first automatic cloth laying system consists of 3 parts, an automatic cloth laying machine, a cutting bed and a power collecting device. The automatic cloth spreading machine is arranged on a cutting bed to work, and the cutting bed can cut clothes on the spot besides bearing and spreading the cloth. The current collector is an electrical component such as a guide gauge for providing power to the cloth paving machine.

Different from the existing cutting bed table with fixed size, the size of the workbench of the cutting bed table is variable.

Specifically, the cloth can be cut by adjusting the table size of the cutting table after determining the approximate size of the cut cloth based on the input clothing attribute data.

The second garment component generation system is used for generating template components of different components of the garment to be processed, and the template components have different sizes;

the operating parameters of the second garment component generation system include a template component composition and dimensions of different template components.

In various embodiments of the present invention, the garment property data input is configured to input garment property data, which includes garment processing parameters.

The garment attribute data is used for limiting the attributes of the garment to be manufactured or produced at present, and comprises limit data of men/women, shirts/skirts/short sleeves, formal dresses/casual dresses and the like;

more specifically, the garment processing parameters may include height, weight, and other more specific garment customization parameters.

In particular, see fig. 3 and 4.

It should be noted that fig. 3 or 4 is only a schematic illustration and does not represent all garment processing parameters.

In fig. 3, for a skirt, the basic garment processing parameters include the circumference of the chest, waist, sleeve length and shoulder width, among other dimensional parameters.

In fig. 4, at least five precise parameters for the a/B/C/D/E positions of fig. 4 are required for a high-end custom-made short-sleeved shirt.

It should be noted that it may not be possible for the customization user to fully provide all of the precise parameters.

When the user attribute parameters provided by the second generation data console are complete enough, the second generation data console can generate working parameters of the first automatic cloth laying system and the second automatic cloth member generation system based on the garment processing parameters.

When the provided user attribute parameters are not complete enough, prompt feedback opinions can be sent to the user, and the second generated data console can search corresponding clothing template parameters in the clothing template database based on the clothing processing parameters, so that the clothing template parameters are used as working parameters of the first cloth automatic laying system and the second clothing member generating system.

The second clothing component generation system described in this embodiment is to divide the whole piece of clothing into different components, and construct a template assembly for each component.

As one example, a shirt may be divided into a shirt collar, sleeves, and a body portion in addition to the two portions.

The construction of the shirt collar is relatively complex for customization of the shirt and the template member, and therefore the present embodiment will be described with reference to the shirt collar as an example, and the description of the other parts will be similar thereto.

After the components are separated, in the visualization stage, the template components of the combined parts are required to be combined based on the third clothing component combination system for integral visualization, and necessary later adjustment is carried out.

In particular, see fig. 5. The lower half of fig. 5 is a specific structural component of a shirt collar of a adult shirt, and the upper half of fig. 5 is a template member corresponding to the shirt collar.

See the lower part of fig. 5, the sewing requires a flat and straight collar, consistent collar angle length and a dimpled appearance. The shirt collar comprises a collar surface and a collar bottom. In the process of manufacturing clothes, the manufacture of the collar is an important step.

Referring to the lower half of fig. 5, a turn-up template member of the shirt collar is shown.

The turndown collar comprises a surface collar and a lining collar, the outer edge of the surface collar is required to be larger than the lining collar when sewing, namely, the sewing effect of the lining of the bread is formed, therefore, the looseness of the surface collar is required to be well controlled when sewing, the shape of the collar is ensured, certain technical skill is required, and the sewing process can be simplified by using the turndown collar template.

The lapel template is designed into a 3-layer template of a panel, a middle plate and a bottom plate. Designing a 1 st layer of slotting track on the panel, designing a 2 nd layer of slotting track on the bottom plate, ensuring that the two layers of tracks are completely overlapped, and hollowing collar corners at two ends of the panel. Besides designing a slotting track, PVC rubber plates with the sizes of the corresponding hollowed positions of the panels are adhered to the positions of the collar corners at the two ends of the middle plate, so that the collar corners are subjected to draft treatment, the collar corners are more fitted, the looseness of a face collar is increased, the effect of the inside of bread is achieved, and meanwhile, when 3 layers of templates are adhered together, sewing is facilitated. The width of the common slot is designed to be 3mm, PVC rubber plates with the thickness of 1.5mm are used for the panel and the bottom plate, PVC rubber plates with the thickness of 0.5mm are used for the middle plate, and the thickness of the rubber plates can be adjusted according to the thickness of the fabric.

In the above embodiment, the first production process control station further comprises a visualization platform comprising a visualization interface;

the third clothing component jointing system is used for jointing the template components of different components of the clothing to be processed, which are generated by the second clothing component generating system, to generate a jointed clothing model, and the sizes of the jointed clothing model and the template components of the jointed parts are displayed on the visual interface.

The garment processing parameters comprise the type and the size of the garment to be made;

the clothing template database stores clothing template parameters corresponding to different clothing processing parameters in advance, and the clothing template parameters comprise size parameters of template components of different components of clothing to be processed.

And adjusting the size of the template component of each combined part on the visual interface to generate an adjusted combined clothing model, and storing the size parameters of the adjusted combined clothing model into the clothing template database.

On the basis of the above embodiments, the present invention further provides a garment processing method based on the system described in fig. 1-5 for automatically recognizing data input, specifically referring to steps S1-S6 described in fig. 6.

In fig. 6, the specific implementation functions of the steps are as follows:

s1: receiving garment processing parameters input by a user;

s2: judging whether the clothing processing parameters are complete or not; if so, go to step S5; otherwise, go to step S4;

s3: matching and searching in a clothing template database based on the clothing processing parameters to obtain at least one matching processing parameter;

s4: generating working parameters based on the complete garment processing parameters or the matched processing parameters;

s5: starting a first cloth automatic laying system, a second garment component generating system and a third garment component jointing system based on the working parameters;

s6: and storing the complete garment processing parameters into the garment template database.

Wherein after the step S5 of activating the third garment component engagement system, the method further comprises:

and adjusting the size of the template component of each combination part of the combination object generated by the third clothing component in combination on the visual interface to generate an adjusted combination clothing model, and storing the size parameters of the adjusted combination clothing model into the clothing template database.

To meet the custom-made or mass-production, step S5 may be repeatedly performed until the custom-made adjustment requirement or the production quantity requirement is met.

In the embodiment, the operation process is simpler and more standard by using the template, and the product quality is improved.

Practice proves that the garment processing method based on automatic identification data input provided by the invention is an advanced and practical technical scheme which can obviously improve the production efficiency, reduce the labor intensity, improve the garment piece precision and stabilize the size and finally improve the garment quality.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (3)

1. A clothing processing method based on automatic identification data input is characterized by comprising the following steps:

s1: receiving garment processing parameters input by a user;

s2: judging whether the clothing processing parameters are complete or not; if so, go to step S5; otherwise, go to step S4;

s3: matching and searching in a clothing template database based on the clothing processing parameters to obtain at least one matching processing parameter;

s4: generating working parameters based on the complete garment processing parameters or the matched processing parameters;

s5: starting a first cloth automatic laying system, a second clothing component generating system and a third clothing component jointing system based on the working parameters, adjusting the sizes of template components of all the jointing parts of the jointing objects generated by the third clothing component jointing system on a visual interface, generating an adjusted jointing clothing model, and storing the size parameters of the adjusted jointing clothing model into a clothing template database;

s6: and repeating the step S5 until the customized adjustment requirement or the production quantity requirement is met, and storing the complete garment processing parameters into the garment template database.

2. The method of claim 1, wherein the method is implemented based on a garment processing system comprising a first production process control console and a second production data console, the second production data console controlling the operating parameters of the first production process control console based on different garment property data; the first production process control platform comprises a first cloth automatic laying system, a second garment component generating system and a third garment component jointing system;

the second production data console comprises a garment attribute data input;

the second production data console is communicated with the clothing template database;

the clothing attribute data input end is used for inputting clothing attribute data, and the clothing attribute data comprises clothing processing parameters;

based on the clothing processing parameters, the second production data console generates working parameters of the first automatic cloth laying system and the second clothing component generating system;

or, based on the clothing processing parameters, the second production data console searches corresponding clothing template parameters in the clothing template database, and the clothing template parameters are used as working parameters of the first automatic cloth laying system and the second clothing component generating system.

3. The garment processing method based on automated identification data input according to claim 2, characterized in that:

the first automatic cloth laying system comprises an automatic cloth laying machine, a cutting bed table with variable size and a current collection control device;

the working parameters of the first automatic cloth laying system comprise the size of the cutting bed; the second garment component generation system is used for generating template components of different components of the garment to be processed, and the template components have different sizes;

the operating parameters of the second garment component generation system include a template component composition and dimensions of different template components.

Images