CN111046478B - Custom hard-fitting design method and design device - Google Patents

Abstract

The invention provides a custom-made hard-cover design method and a design device, which solve the technical problems that the design efficiency in the existing hard-cover custom-making process can not meet the requirements of customers and influence the customer experience. The method comprises the following steps: and determining a hard-fitting reference space through custom-made demand data of a customer, determining a hard-fitting decoration sequence between custom-made hard-fitting models in the hard-fitting reference space through process rules, and forming ordered layout of the custom-made hard-fitting models through placement rules. The custom-made hardcover model is combined with the hardcover space standard to form a unified simulation plan of the hardcover decoration process, so that the optimal process matching is realized for a plurality of custom-made hardcover models of each single hardcover process in the assembly process, the potential psychological expectation and subjective requirements of customers are met, and the balance and the applicability of the hardcover functions are ensured while the custom-made requirements of the customers are met. The basic data formed based on the standardization and modularization of the hard-wired components is advantageous for improving the automation level of hard-wired customization. The cost of the customer-designer interaction link is reduced to the minimum.

Description

Custom hard-fitting design method and design device

The present invention requires that: the application date is 2018, 12, 29, CN2018116395536, entitled "priority of a custom hard-wearing design method and design apparatus". The entire contents of the above application are incorporated herein by reference in their entirety.

Technical Field

The invention relates to the technical field of hard-wearing product manufacturing, in particular to a customized hard-wearing design method and a design device.

Background

In the prior art, the custom hard suit is designed and manufactured based on the individuality and preference of consumers, so that most of individuality demands of the consumers can be met, the custom hard suit is well matched with house types in the aspects of size, style, functions and the like, but the production and manufacture of the custom hard suit are influenced by human resources in a design link, so that the production efficiency is low, and the market demands are difficult to meet.

The hard-fitting professional knowledge relates to related professional procedures such as top surface decoration, wall decoration, ground decoration, wood decoration, waterway circuit engineering and the like, depth coordination is needed among professions, a designer is not only a designer but also a client manager in the custom-made design process, and the designer has the professional knowledge of hard-fitting design, proficiency design and drawing software, and is also communicated with clients closely to fully acquire the real demands of the clients, so that the labor cost is high. The design process of customizing hard-fitting with the designer as the center directly causes the problems of low design efficiency, overlong product production and delivery period, poor customer experience and the like.

Disclosure of Invention

In view of the above problems, the embodiments of the present invention provide a method and an apparatus for customizing hard-pack design, which solve the technical problem that the design efficiency in the existing hard-pack customizing process cannot meet the customer requirements and affect the customer experience.

The custom hard-packaged design method of the embodiment of the invention comprises the following steps:

and determining a hard-fitting reference space through custom-made demand data of a customer, determining a hard-fitting decoration sequence between custom-made hard-fitting models in the hard-fitting reference space through process rules, and forming ordered layout of the custom-made hard-fitting models through placement rules.

In one embodiment of the present invention, the determining the hard-wired reference space according to the custom demand data of the customer includes:

receiving expression information of a client to form household custom demand data;

and forming the space type and the space reference of the hard-packed space according to the house type customization demand data.

In an embodiment of the present invention, the determining, by the process rule, the sequence of hard-fitting decoration between the custom-made hard-fitting models in the hard-fitting reference space, and forming the ordered layout of the custom-made hard-fitting models by the placement rule includes:

determining a procedure rule set according to the space type, and determining a placement rule set according to the space type and the space reference;

The custom-made hardcover models are matched according to the procedure rule set to form a hardcover sequence;

and the custom-made hard-packed models form a layout form according to the layout rule set.

In an embodiment of the present invention, the method further includes:

and adapting the selected hard-fitting components through the personal characteristic data of the client and the custom demand data, and restricting the assembly of the alternative hard-fitting components through design rules to form the custom hard-fitting model conforming to the personal characteristic and the custom demand.

In one embodiment of the present invention, the adapting the hard-suit component by the personal characteristic data and the custom demand data of the customer includes:

receiving expression information of a client to form the personal characteristic data and the custom demand data;

obtaining general matching data of the hard-packaged component matched with the customized demand data;

the personal characteristic data and the custom demand data are adapted to the general matching data to determine the alternative hard-packaged component;

in an embodiment of the present invention, the constraining the assembly of the alternative hard-wired component by design rules includes:

adapting the custom hard-pack design rules that match the personal characteristic data;

and matching the custom demand data with the design rules to form an alternative hard-packaged model.

In one embodiment of the present invention, the forming the customized hard-set model according to the personal characteristics and the customization needs includes:

providing the display image of the alternative hardcover model, and readjusting the alternative hardcover model according to the corresponding correction parameters of the display image until the customized hardcover model is determined.

In one embodiment of the present invention, the method includes, when readjusting the alternative hard-set model or after determining the customized hard-set model:

and forming key production information by the material matching structure of the alternative hard-packed model or the customized hard-packed model.

The custom hard-packaged design device of the embodiment of the invention comprises:

the memory is used for storing program codes corresponding to the processing process of the customized hard-package design method;

and a processor for executing the program code.

The custom-made hardcover design device is used for determining the hardcover reference space according to custom-made demand data of a customer, determining the hardcover decoration sequence among custom-made hardcover models in the hardcover reference space according to process rules, and forming ordered layout of the custom-made hardcover models according to placement rules.

In an embodiment of the present invention, the custom hard-packaged design device is further configured to adapt the selected hard-packaged component according to the personal characteristic data and the custom demand data of the customer, and to constrain the assembly of the selected hard-packaged component according to the design rule, so as to form a custom hard-packaged model that meets the personal characteristic and the custom demand.

The custom-made hard-fitting design method and the design device of the embodiment of the invention form unified simulation planning in the hard-fitting decoration process by combining the custom-made hard-fitting model with the hard-fitting space standard, realize optimal process matching of a plurality of custom-made hard-fitting models of each single hard-fitting process in the assembly process, effectively save the hard-fitting time cost and the labor cost, and improve the transfer and site stacking efficiency of actual hard-fitting materials and components. On the basis of matching with the optimal procedure, the layout adjustment of a plurality of custom-made hard-fitting models is carried out through the layout rule, so that the custom-made needs are met, and meanwhile, the reasonable function realization and the reasonable architecture guarantee of the hard-fitting decoration in the aspects of safety and practicality are ensured. The custom-made hard-packaged model achievement is fully utilized, the cost of the customer-designer interaction link in the custom-made hard-packaged process is reduced to the minimum, and the efficiency and diversity of hard-packaged custom-made are further improved.

The personal characteristic data and the custom demand data of the clients are combined to form the screening basis of the alternative hard-packaged components, so that the matched components obtained from the database of the hard-packaged components meet the potential psychological expectations and subjective demands of the clients, and the clients obtain personalized choices in the maximum component range. The personalized subjective requirements are maintained in the range of reasonable functions and reasonable architecture by utilizing design rules, and balanced application of the hard-wearing function is ensured while the custom-made requirements are met. Based on the standardization and modularization of the hard-fitting components, the custom hard-fitting model data formed by the method can be used as a basic data source for industrial production, and is beneficial to improving the automation level of hard-fitting customization. The custom-made hard suit formed based on the design rules can fully utilize the existing design resource achievements, so that the cost of the customer-designer interaction link in the custom-made hard suit customization process is reduced to the minimum, and the custom-made hard suit customization efficiency and diversity are further improved.

Drawings

FIG. 1 is a flow chart of a method for customizing a hard pack design according to an embodiment of the present invention.

FIG. 2 is a schematic diagram illustrating a process of forming customer data in a custom hard-made design method according to an embodiment of the invention.

FIG. 3 is a schematic diagram illustrating a process of forming a hard-wired component in a custom hard-wired design method according to an embodiment of the invention.

FIG. 4 is a schematic diagram illustrating a design rule forming process in a custom hard-made design method according to an embodiment of the invention.

FIG. 5 is a schematic diagram illustrating the adapting process of the hard-wired components in the custom hard-wired design method according to an embodiment of the present invention.

FIG. 6 is a schematic diagram illustrating an alternative hard-set model forming process in a custom hard-set design method according to an embodiment of the invention.

FIG. 7 is a schematic diagram illustrating an alternative adjustment process of the hard-set model in the custom hard-set design method according to an embodiment of the present invention.

FIG. 8 is a schematic diagram illustrating a process of forming key production information in a custom hard-made design method according to an embodiment of the invention.

FIG. 9 is a schematic diagram of a custom hard-design device according to an embodiment of the invention.

FIG. 10 is a flow chart of a method for customizing a hard drive design according to another embodiment of the present invention.

FIG. 11 is a schematic diagram of a custom hard-design device according to another embodiment of the invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be further described with reference to the accompanying drawings and detailed description. It will be apparent that the described embodiments are only some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The custom hard-packaged design method of the embodiment of the invention comprises the following steps:

the customer personal characteristic data and the custom demand data are suitable for being provided with the optional hard-packaged components, and the optional hard-packaged components are assembled through the constraint of design rules, so that a custom hard-packaged model meeting personal characteristics and custom demands is formed.

Hardfacing includes, but is not limited to, finishing processes such as ceiling finishing, wall finishing, floor finishing, wood finishing, waterway circuit layout, kitchen ware and sanitary ware layout, and the like. The decoration processes respectively follow the decoration procedures to form a set of independent component matching structures, wherein the component matching structures comprise elements such as styles, material textures and the like which are suitable for the demands of customers, and also comprise elements such as space dimensions, material specifications and the like which are suitable for the decoration environments. And a definite fitting structure of the decoration working procedure is formed among the decoration working procedures, and the fitting structure of the decoration working procedure comprises an additional component fitting structure in the implementation process of the decoration working procedure and an additional component fitting structure when the decoration working procedure is finished.

According to the custom-made hard-cover design method, the personal characteristic data and the custom-made demand data of the customer are combined to form the screening basis of the alternative hard-cover components, so that the matched components obtained from the database of the hard-cover components meet the potential psychological expectations and subjective demands of the customer, and the customer obtains the personalized choice in the maximum component range. The personalized subjective requirements are maintained in the range of reasonable functions and reasonable architecture by utilizing design rules, and balanced application of the hard-wearing function is ensured while the custom-made requirements are met. Based on the standardization and modularization of the hard-fitting components, the custom hard-fitting model data formed by the method can be used as a basic data source for industrial production, and is beneficial to improving the automation level of hard-fitting customization. The custom-made hard suit formed based on the design rules can fully utilize the existing design resource achievements, so that the cost of the customer-designer interaction link in the custom-made hard suit customization process is reduced to the minimum, and the custom-made hard suit customization efficiency and diversity are further improved.

A custom hard-fitting design method according to an embodiment of the invention is shown in FIG. 1. In fig. 1, an embodiment of the present invention includes:

step 100: and receiving the expression information of the clients to form personal characteristic data and custom demand data.

Those skilled in the art will appreciate that the same type of hard suit may include different types of hard suit in the hard suit class division, that different hard suit classes may include the same or different hard suit components, and that one hard suit component may be serialized. For example, the wall hardpack comprises a television background wall, a sofa background wall, wall bricks, wall paint, wallpaper and the like, and various television background walls comprise a main wall body, a decorative surface, a power supply, lamplight and the like, and the main wall body comprises a series of deformations such as materials, models and the like.

The personal characteristic data of the customer are used for forming personal characteristic informatization labels of the customer, and implicit quantitative information of the customer on the requirements of the type of hard-wearing, the hard-wearing components and the like in design style, use purpose, use habit and the like is embodied. The custom demand data is used to form subjective quantitative information of the customer, including but not limited to subjective, expected quantitative information of hard-set type, function, size, style, texture, etc.

Step 200: and obtaining general matching data of the hard-packaged component matched with the customized demand data.

Those skilled in the art will appreciate that there are, but are not limited to, indexable type data, indexable functional partition area data, indexable functional area attribute data, indexable standard form component data, indexable component standard size specification data, and the like for assembling the hardpack.

The design style, functional elements, usage scenarios, usage limitations, etc. of the hardpack assembly may be formed in quantized or weighted quantized form and nominal data determined as part of determining the quantization hierarchy.

The universal matching data of the hard-wired component at least comprises the indexable data and the quantitative composite data formed by determining nominal data and the indexable data.

Step 300: custom hard-pack design rules are adapted to match the personal characteristic data.

Custom hardcoat design rules include constraints in the hardcoat construction that accommodate the individual characteristics and subjective needs of the customer and impose limitations on functions and components. The design rules may be manually set by a technician in the field of hard-wired design. The method can also utilize the set rules obtained from mass design schemes in a machine learning mode as design rules by carrying out data calibration on the hard-packaged functions and the hard-packaged components in the existing custom-built hard-packaged design schemes. Design rules in the cumulative design rules database include functional and/or inter-component combination rules, coordination rules, avoidance rules, size rules, location rules, etc., as well as coupling with personal features, rejecting with personal features, associating with requirements rules, prioritizing requirements rules, etc.

Step 400: and determining the alternative hard-packaged component by adapting the personal characteristic data and the custom demand data to the universal matching data.

And determining the range of the alternative hardcover component by utilizing the quantitative adaptation of the customized demand data and the hardcover component function, determining the demand similarity of the alternative hardcover component by utilizing the quantitative adaptation of the informationized tag of the personal characteristic data and the corresponding data of the hardcover component, and forming a set of the alternative hardcover components meeting the functional demand.

Step 500: and forming an alternative hard-fitting model by adapting the alternative hard-fitting components with the custom demand data and the design rules.

And forming various hard-packed structure structures within the range of the alternative hard-packed components through the adaptation of the custom demand data and the design rules, and forming a set of alternative hard-packed models with priority by the hard-packed structure structures according to the adaptation of the design rules to the personal characteristic data.

Step 600: providing the display image of the alternative hard-fitting model, and readjusting the alternative hard-fitting model according to the corresponding correction parameters of the display image until the customized hard-fitting model is determined.

Forming the display image for customers based on the alternative hard-fitting model. Presentation figures include, but are not limited to, multimedia material, virtual reality objects or scenes, stereoscopic images, or interactive models.

And obtaining modification parameters of the alternative hard-packed model through combination of the display image and the interaction means. And repeating the adapting process according to the modification parameters until the customer approves the alternative hardcore model corresponding to the display image to determine the customized hardcore model.

According to the custom-made hardcover design method, the custom-made hardcover custom-made process is automated, the adaptive parameters of the custom-made process are obtained through simple interaction with a customer, the custom-made hardcover model and related generation information are directly provided for the customer, customer demand interaction analysis and design process interaction change in hardcover custom-made are effectively optimized, meanwhile, image display corresponding to real hardcover objects is provided, and objective experience effects of customer hardcover custom-made are guaranteed.

As shown in fig. 1, in an embodiment of the present invention, after step 600, the method further includes:

step 700: and forming key production information by matching the materials of the custom-made hard-packed model with the structure.

And resolving the hard-packed structure of the customized hard-packed model into the dependency relationship among basic frames, and expressing the hard-packed structure according to the dependency sequence determined by mathematical description. And forming key production information such as layout positions and specifications of the fixing elements, layout positions of components of the assembly, basic material information of the assembly, facing information of the assembly and the like according to the determined dependency sequence.

The embodiment of the invention is beneficial to reducing the operation load of the server side in the computer system.

As shown in fig. 1, in an embodiment of the present invention, the repeated adaptation process in step 600 further includes:

step 800: and forming key production information by matching the materials of the alternative hard-packed model with the structure.

And analyzing the hard-packed structure of the alternative hard-packed model into the dependency relationship among basic frames, and expressing the hard-packed structure according to the dependency sequence determined by mathematical description. And forming key production information such as layout positions and specifications of the fixing elements, layout positions of components of the assembly, basic material information of the assembly, facing information of the assembly and the like according to the determined dependency sequence.

The embodiment of the invention is beneficial to reducing the operation load of the server side in the computer system.

As shown in fig. 2, in an embodiment of the present invention, step 100 includes:

step 110: gradually obtaining expression information of a client in an interactive mode;

the interactive user interface of the communication terminal can be utilized to obtain the expression information input by the client. The communication terminal may include a touch screen all-in-one, tablet, notebook, desktop, cell phone, vendor display terminal, etc. The expression information of the client comprises, but is not limited to, personal portrait information such as gender, age, height, occupation, preference, consumption record and the like, and specific index information such as function, size, style, material and the like of customizing hard clothes.

Step 120: classifying the expression information of the clients to form personal information and demand information;

the personal information comprises expression information reflecting potential expectations of the clients, the demand information comprises expression information reflecting subjective willingness of the clients, and information overlapping parts exist in the classification of the personal information and the demand information. For example, sex, age, height, occupation, preference, consumption record, etc. are used as personal information, functions, size, style, material, etc. of hard suit are used as requirement information, height may be used as requirement information, and style may be used as personal information.

Step 130: vectorizing the personal information to form personal characteristic data describing personal preferences;

those skilled in the art will appreciate that a multi-dimensional vector space can be established by using vectorization (i.e., vectorization) technology, and a vector quantization description is formed for multi-dimensional features of an object, so as to satisfy specific feature difference contrast between objects. Vectorized personal characteristic data for personal preferences may be established using personal information.

Step 140: the demand information is quantized to form custom demand data as a reference threshold.

Those skilled in the art will appreciate that the specific needs of the customer may be obtained through an interactive interface or formatting information. The specific requirement information can be the range or the preference of specific requirements for a certain attribute or feature of the hard package, can be used as a threshold value of the corresponding attribute or feature, and can be used for establishing quantized customization requirement data aiming at a customization target.

As shown in fig. 3, in an embodiment of the present invention, step 200 includes:

step 210: determining hard-pack category and functional area requirements using the custom-made requirements data;

and obtaining the requirement information of the customer on the hard suit from the customized requirement data, and determining the hard suit type and the functional area according to the requirement information. For example, the type of hard-set from the demand information is wall hard-set-television background-marble television background, including main wall, veneer, power supply, light, etc.

Step 220: determining a range of the hard-packaged component by utilizing the hard-packaged type and the functional area requirement;

the selection range of the hard-packaged components corresponding to the hard-packaged categories and the requirements of the functional areas is obtained according to the indexable data, wherein the selection range comprises the types of the hard-packaged components, the detailed classifications and the detailed specifications in the same hard-packaged component types. The hard-fitting components such as the background wall of the marble television comprise main wall marble plates, facing marble plates, modeling components, power supplies, lamps and other component types, and each type also comprises detailed classification and specific specification of materials and patterns.

Step 230; and acquiring general matching data of the hard-packaged components according to the range of the hard-packaged components.

The general matching data of the hard-wired component includes physical parameters and characteristic parameters of the component, wherein:

Physical parameters including, but not limited to, topology data, part constraint data, dimensional proportion data, optimal dimensional data, part configuration data, etc., are typically stored in attribute-value form;

the feature parameters include, but are not limited to, vector quantized data representing dimensions of application environment, application style, application limitations, etc., typically stored in a matrix form.

As shown in fig. 4, in an embodiment of the present invention, step 300 includes:

step 310: matching design rules of the hard-wearing style for determining the type of the hard-wearing;

the design rules are matched to some or all of the preferences embodied in the personal characteristic data.

The hard-set style design rules include, but are not limited to, hard-set (e.g., where elements such as hue, overall outline, texture, etc. are compatible with the environment) environment-matching design rules, personal sign-matching design rules, security-matching design rules, etc.

Step 320: matching design rules of the hard-wearing functional areas for determining hard-wearing types;

the design rules of the hard-wired functional area include, but are not limited to, zoning design rules, zone overlapping design rules, zone repeating design rules, zone height limiting design rules, and the like.

Step 330: the design rules of the component layout that determine the type of hard-sided are matched.

Design rules for component layout include, but are not limited to, assembly rules, load bearing design rules, layout space planning design rules, quantity design rules, angle design rules, and mutual occlusion design rules.

As shown in fig. 5, in an embodiment of the present invention, step 400 includes:

step 410: extracting characteristic parameters of the hard-packaged component from the universal matching data in the range of the hard-packaged component;

and acquiring characteristic parameters of each hard-mounted component in the selection range based on the universal matching data, and acquiring inherent multi-dimensional quantification characteristics (determined by manual or machine classification) of the corresponding hard-mounted component.

Step 420: and comparing the adaptation degree of the characteristic parameters of the hard-packaged components and the personal characteristic data to determine alternative hard-packaged components.

And forming multidimensional quantized features of an application scene expected by a customer based on the personal feature data, comparing the multidimensional quantized features with the multidimensional quantized features of the hard-packaged components, and obtaining a series of alternative hard-packaged components which meet the psychological expectation of the customer according to preset comparison thresholds of all dimensions.

As shown in fig. 6, in an embodiment of the present invention, step 500 includes:

step 510: forming a design basic index of the hard-wearing model by utilizing the customized demand data;

the data related to subjective willingness of the customer in the custom demand data is guaranteed to be satisfied as the basic demand of the hard-packaged integral structure.

Step 520: forming a limiting index of the hard-wearing model by utilizing a design rule;

the design rules are that the process requirements for customer preference and practicality need to be guaranteed to be met when the hardpack is formed into an integral structure.

Step 530: forming a combined hard-fitting model of the alternative hard-fitting components conforming to the design basic indexes by utilizing design rules;

based on the diversity of the alternative hard-wired components, a series of combined hard-wired models can be formed that meet the basic and process requirements.

Step 540: and screening the combined hard-packaged model by utilizing the threshold effect combination of the custom demand data and the deviation degree of the design rule to form a group of alternative hard-packaged models with priority recommendation sequences.

As shown in fig. 7, in an embodiment of the present invention, step 600 includes:

step 610: forming a display object by taking the alternative hard-packed model as a reference;

the parts of the presentation object may be associated with personal characteristic data, custom demand data, hard-wired component data, or design rule data, and cooperate with the interactive user interface to form an associated presentation.

Step 620: acquiring expression modification information of a client on a display object through an interactive user interface;

the expression modification information may include personal characteristic data, custom requirement data, or design rule adjustment data, and hard-wired component adjustment data.

Step 630: forming personal characteristic adjustment data and/or custom demand adjustment data according to the expression modification information;

the personal characteristic adjustment data and the custom demand adjustment data correspond to the personal characteristic data and the custom demand data, may be partially modified or completely modified personal characteristic adjustment data and custom demand adjustment data, and the custom demand adjustment data may also include adjustment data for part or all of the model, part or all of the component, part or all of the functional area.

Step 640: reform the alternative hard-packed model and the corresponding display object according to the personal characteristic adjustment data and/or the custom demand adjustment data;

the process of reforming the alternate hard-set model includes the processes of step 400 and step 500 in one embodiment of the invention.

The process of reforming the alternate hard-set model includes the processes of step 100, step 200, and step 300 in one embodiment of the invention.

The process of reforming the alternate hard-set model includes minor steps of steps 100, 200, 300, 400, and 500 in one embodiment of the invention.

Step 650: the customer determines the custom hardcoded model through an iterative tuning process of the alternative hardcoded model.

The alternate hardcoat model is formed by the customer in a final determination of the custom hardcoat model based on the iterative tuning process that the customer expects to perform.

As shown in fig. 8, in an embodiment of the present invention, step 700 includes:

step 710: splitting the hard-packaged component by taking the frame as a basic unit;

the frame is used as a basic configuration of the hard-mounted functional area and the hard-mounted component (namely the main frame component), the connection structure and the indirect sequence of the functional areas and the main component can be effectively determined by taking the frame as a split basis, and a positioning basis is provided for the smaller component (namely the practical application component) and the independent component.

Step 720: converting the sequential connection topological structure of the frame into production basic data of a corresponding material matching structure;

the sequential connection topological structure of the frames can better reflect the position relation and the dependency relation among the frames, the functional area formed by the components can be obtained, the matching structure data of the whole home outline formed by the functional area can be further formed, and then the complete production basic data can be formed. The sequential connection topology may be described by a directed graph and the adjacency matrix of the directed graph may be utilized to form the data structure.

Step 730: adding accessory installation data on the production base data;

The production base data may provide positioning references for smaller assemblies and components to enable the determination of the mounting locations of other additional materials and components, forming accessory mounting data.

Step 740: adding inter-frame fixed data on the production basic data;

the production basic data can provide positioning reference for fixing or reinforcing positions among frames in a connection relation, so that a fixing optimization scheme of the whole matching structure is formed among the frames, and the inter-frame fixing data is formed.

Step 750: and forming key production information according to the production basic data, the accessory installation data and the inter-frame fixed data.

The optimization of the frame sequence connection relationship, the mounting positions of the accessories and the accessory materials and the fixed connection positions among the frames form the key production information of the hard-fitting.

In one embodiment of the present invention, step 800 includes the processing of steps 710 to 750.

The custom-made hardcover design device is used for adapting to the selected hardcover components through the personal characteristic data and the custom demand data of the clients, and forming the custom-made hardcover model meeting the personal characteristic and the custom demand by restricting the assembly of the alternative hardcover components through design rules.

As shown in FIG. 9, in one embodiment of the present invention, a custom hard-wired design device comprises:

The data acquisition module 1100 is configured to receive expression information of a client, and form personal characteristic data and custom demand data;

the component adapting module 1200 is configured to obtain general matching data of the hard-packaged component adapted to the custom requirement data;

a rule adaptation module 1300 for adapting custom hard-packaged design rules that match personal characteristic data;

the component matching module 1400 is configured to determine an alternative hard-packaged component by adapting the personal characteristic data and the custom requirement data to the universal matching data;

the rule matching module 1500 is configured to adapt the optional hard-assembling component to form an optional hard-assembling model through customizing the requirement data and the design rule;

the iteration adjusting module 1600 is configured to provide the display image of the alternative hardcover model, and readjust the alternative hardcover model according to the corresponding correction parameters for the display image until the customized hardcover model is determined.

As shown in fig. 9, in an embodiment of the present invention, further includes:

the data adapting module 1700 is configured to form the material matching structure of the custom hard-packaged model into key production information.

As shown in fig. 9, in an embodiment of the present invention, the data acquisition module 1100 includes:

an information receiving unit 1110 for obtaining the expression information of the client step by step through an interactive manner;

A classification unit 1120 for classifying the expression information of the client to form personal information and demand information;

a first quantization unit 1130 for vectorizing personal information to form personal characteristic data describing personal preferences;

a second quantization unit 1140, configured to quantize the requirement information to form customized requirement data serving as a reference threshold.

As shown in fig. 9, in an embodiment of the present invention, the component adaptation module 1200 includes:

a category determining unit 1210 for determining a hard-wear category and a functional area requirement using the custom requirement data;

a component range determining unit 1220 for determining a hard-wired component range using the hard-wired category and the functional area requirement;

the component data determining unit 1230 is configured to obtain general matching data of the hard-packaged component according to the hard-packaged component range.

As shown in fig. 9, in an embodiment of the present invention, the rule adaptation module 1300 includes:

a type determining unit 1310 for matching design rules of the hard-wearing style for determining the type of hard-wearing;

a rule range determining unit 1320 for matching design rules of the hard-wearing functional area for determining the kind of hard-wearing;

the assembly rule matching unit 1330 is configured to match the design rule of the component layout for determining the type of the hard package.

As shown in fig. 9, in an embodiment of the present invention, the component matching module 1400 includes:

a feature extraction unit 1410, configured to extract feature parameters of the hard-wired component from the universal matching data within the hard-wired component range;

and a feature matching unit 1420, configured to compare the fit degree of the characteristic parameter of the hard-wired component and the personal characteristic data, and determine an alternative hard-wired component.

As shown in fig. 9, in an embodiment of the present invention, the rule matching module 1500 includes:

a first index determining unit 1510 for forming a design base index of the hard-wired model using the custom demand data;

a second index determining unit 1520 for forming a limiting index of the hard pack model using the design rule;

an active design unit 1530 for forming a combined hardcover model of the alternative hardcover assembly conforming to the design base index using the design rules;

the model screening unit 1540 is configured to screen the combined hard-packaged model by using the threshold effect of the custom demand data and the deviation degree of the design rule, so as to form a group of alternative hard-packaged models with priority recommendation sequence.

As shown in fig. 9, in an embodiment of the present invention, the iterative adjustment module 1600 includes:

a display data forming unit 1610, configured to form a display object with the alternative hard-packaged model as a reference;

A modification data receiving unit 1620, configured to obtain, through an interactive user interface, expression modification information of a display object by a client;

a model adjustment unit 1630 for forming personal characteristic adjustment data and/or custom requirement adjustment data according to the expression modification information;

the iteration adjusting unit 1640 is used for reforming the alternative hard-packaged model and the corresponding display object according to the personal characteristic adjusting data and/or the custom demand adjusting data;

model determination unit 1650 is configured to determine a custom hardcoded model by the iterative adjustment process of the alternative hardcoded model.

As shown in fig. 9, in an embodiment of the present invention, the data adaptation module 1700 includes:

a splitting unit 1710 for splitting the hard-wired component with the frame as a basic unit;

a sequence description unit 1720 for converting the sequential connection topology of the framework into production base data of the corresponding material-fit structure;

a data adding unit 1730 for adding the accessory mounting data to the production base data;

a structure additional unit 1740 for adding inter-frame fixed data on the production base data;

an information customizing unit 1750 for forming key production information based on the production base data, the accessory mounting data, and the inter-frame fixing data.

The custom-made hard-cover design method and the custom-made hard-cover design device according to the embodiments can effectively recommend components, materials, component structures and component matching structures for determining process procedures in the custom-made hard-cover process, such as top surface decoration, wall surface decoration, ground decoration, wood decoration, waterway circuit layout, kitchen ware sanitary ware layout and the like, and the formed custom-made hard-cover model meets subjective requirements of customers and custom-made production requirements.

The custom hard-packaged design method of the embodiment of the invention further comprises the following steps:

and determining a hard-fitting reference space through custom-made demand data of a customer, determining a hard-fitting decoration sequence between custom-made hard-fitting models in the hard-fitting reference space through process rules, and forming ordered layout of the custom-made hard-fitting models through placement rules.

Those skilled in the art will appreciate that custom hard-fitting designs are directed to determining a series of materials and component assembly processes in a finished space that are based on the formation of a building foundation. The custom hard-fit design includes a simulation process for forming a hard-fit finishing process for a custom hard-fit model of a defined material and component, obtaining optimized layout data for the custom hard-fit requirements. The simulation process comprises hard-fitting simulation between the custom hard-fitting models and layout form simulation of the custom hard-fitting models. The custom demand data may include demand for custom hard-fit models and demand for house type decorations.

The custom-made hardcover design method of the embodiment of the invention forms unified simulation planning of the hardcover decoration process by combining the custom-made hardcover model with the hardcover space standard, realizes optimal procedure matching of a plurality of custom-made hardcover models of each single hardcover procedure in the assembly process, effectively saves the hardcover time cost and the manpower cost, and improves the transfer and site stacking efficiency of actual hardcover materials and components. On the basis of matching with the optimal procedure, the layout adjustment of a plurality of custom-made hard-fitting models is carried out through the layout rule, so that the custom-made needs are met, and meanwhile, the reasonable function realization and the reasonable architecture guarantee of the hard-fitting decoration in the aspects of safety and practicality are ensured. The custom-made hard-packaged model achievement is fully utilized, the cost of the customer-designer interaction link in the custom-made hard-packaged process is reduced to the minimum, and the efficiency and diversity of hard-packaged custom-made are further improved.

A custom hard-fitting design method according to an embodiment of the invention is shown in FIG. 10. In fig. 10, the present embodiment includes:

b100: and receiving the expression information of the clients to form the household custom demand data.

The customer's expression information includes, but is not limited to, a quantitative description of the interior of the hard-sided space, such as a description of the type of hard-sided space as a living room, restaurant, bedroom, bathroom or entertainment room, such as a description of the size of the interior space of the hard-sided space, the type of wall, or the size of the door window. A quantitative description of the environment outside the hard-sided space, such as a description of the use of the adjacent space of the hard-sided space, a description of the outdoor environment, a description of the outdoor channel, or a description of the thermal insulation mode, may also be included.

The house type custom demand data can adopt a three-dimensional digital model or a building information model of a hard-packed space.

The custom demand data for the house has a strong correlation in physical characteristics with the hard-set process and the custom hard-set model in the hard-set process. For example, the wall hardfacing process may include a television wall, sofa wall, wall brick, wall paint, wallpaper, etc. finishing process that includes custom hardfacing models corresponding to materials or components of the main wall, veneer, power supply, lights, etc.

b200: and forming the space type and the space reference of the hard-packed space according to the house type custom demand data.

The space type is described for the purpose of a hard-fitting space, such as a living room, a restaurant, a bedroom, a bathroom, or an entertainment room, and there is a difference in the kind of process for the hard-fitting decoration of the space type. The space reference forms a coordinate space for the determined hard-fitting space, and marks key constituent objects of the hard-fitting space in the coordinate space, such as the door and window bealock position and size, the water supply and drain pipeline position, the gas pipeline position or the home cable position, and the like.

b300: and determining a procedure rule set according to the space type, and determining a placement rule set according to the space type and the space reference.

The space type determines the hard-fitting procedure, the hard-fitting procedure determines the materials and components to be used, and the custom hard-fitting model corresponding to the materials and components is used for the corresponding design simulation process. Each specific hard-fitting process has a mature staged finishing process, and can form a time sequence process rule for customizing the data of the hard-fitting model. Each material and each component have reasonable fixed setting characteristics in the process of determining time sequence decoration, and can optimally form the data layout and placement rules of the customized hard-wearing model.

b400: and matching the custom-made hard-fitting models according to the procedure rule set to form a hard-fitting sequence.

The process rule set has fitment stage nodes in each hard-packed process, and the non-unique connection sequence can exist among the stage nodes of each hard-packed process, so that the optimization of the complete hard-packed stage sequence can be formed through the simulation of each stage of each hard-packed process in the hard-packed reference space. The custom-made hard-fitting models are matched with corresponding fitment stage nodes to form a reasonable fitment sequence among the custom-made hard-fitting models corresponding to each stage node in the complete hard-fitting stage sequence.

b500: and the custom-made hard-packed models form a layout form according to the layout rule set.

And the placement rule set forms an optimized form of the layout of all the custom-made hardcore models in the hardcore reference space according to the default setting characteristics of all the custom-made hardcore models in the hardcore decoration process and the simulation of the mutual influence or effect among the custom-made hardcore models.

According to the custom-made hardcover design method, the fitment dependency relationship of the custom-made hardcover models in each hardcover process is subjected to orderly optimization of the working procedures, and the form optimization is performed by combining the mutual influence or action among the custom-made hardcover models, so that the integral optimization of the custom-made hardcover models in the hardcover fitment process is realized, the customer expectation of hardcover is met, the design efficiency is improved maximally, and the design cost is reduced.

As shown in fig. 10, in an embodiment of the present invention, step b100 includes:

step b110: and obtaining the characteristic labels of the functional description of the customer on the hard-packaged space in an interactive mode.

The feature tag includes, but is not limited to, a top surface finish, a wall finish, a floor finish, a waterway circuit, and the like. The materials and components included in each process may be determined by the custom hard-fitting model obtained in the above-described embodiments. Such as furniture to be placed, ceiling ceilings, spot lights, ceiling lights, etc., skirting lines, wallpaper or tiles on the wall surface, tiles on the ground, floor or wave wire bonding, etc.

Step b120: and obtaining the spatial description of the hard-packed space in an interactive mode.

The interaction means may be building model data or spatially measured data. Spatial descriptions include, but are not limited to, beams, columns, wells, doors, windows, and the like.

Step b130: and combining the coordinate data and the function description to form the house type custom demand data of each part of the hard-packaged space.

The custom demand data for the house includes materials and components that are locally used in the hard-sided space determination, as well as the desired construction effect.

The custom-made hard-fitting design method provided by the embodiment of the invention fully quantifies the customer requirements and provides initial guarantee for the combination of the hard-fitting process and the custom-made hard-fitting model in the simulation process to form a reliable process cooperation of determining part.

As shown in fig. 10, in an embodiment of the present invention, step b200 includes:

step b210: and determining the type of the application of each part of the hard-packed space according to the characteristic labels.

Those skilled in the art will appreciate that there may be differences in the type of use within the same hard-sided space. Taking a bathroom as an example, the same hard-fitting space can comprise a dry area and a wet area, and the corresponding hard-fitting process can have differences, while neglecting the differences of the bottom hard-fitting process for other decoration processes of surface hard-fitting can cause hard-fitting defects.

Step b220: and determining the hard-packed space key structure according to the space description.

The critical structure of the hard-fitting space is often related to the type of application, and a targeted hard-fitting process is required. The key structure of the hard-packed space is often the key part for the integration or combination of the custom hard-packed model, and correspondingly, a targeted hard-packed process is adopted.

Step b230: and determining a coordinate system of the hard-packaged space and a coordinate range of the key structure according to the house type customization demand data to form a space type and a space reference.

The complete hard-packed space can be orderly divided into different space types, and a space reference of the orderly local space of the hard-packed space can be formed based on a coordinate system formed uniformly.

The custom-made hard-fitting design method provided by the embodiment of the invention fully quantifies the space type and space standard of the hard-fitting space, so that proper working procedures and processes can be fully adjusted for the local part of the hard-fitting space in the assembly simulation process.

As shown in fig. 10, in an embodiment of the present invention, the step b300 includes:

step b310: and determining a process rule set of the hard-packaged space part according to the local space type.

It will be appreciated by those skilled in the art that the process rules are digitization rules for national and industry specifications for the finishing construction, and also include digitization standards for the scale finishing materials and component parameters. The process rule set of the whole hard-packed space formed by the process rule set aiming at the local space has finer decoration simulation granularity.

Step b320: and determining a placement rule set of the customized hard-packed model according to the local space type and the local space reference.

The placement rule set of the customized hard-packed model formed aiming at the local space type and the local space reference has finer morphological simulation granularity of the customized hard-packed model.

The custom-made hardcover design method of the embodiment of the invention fully makes basic procedure definition of reasonable construction for details of the hardcover space, simultaneously makes basic placement definition of reasonable construction for form coordination of diversified custom-made hardcover models, utilizes mature hardcover industrial standards to limit the hardcover process, and meets the organic combination of the hardcover procedure and the custom-made hardcover model in the hardcover space required by realizing customer demands.

As shown in fig. 10, in an embodiment of the present invention, the step b400 includes:

step b410: a custom hard-fit model for use in the hard-fit process is determined.

Typically custom-made hard-set models of materials, components, and profiles, each hard-set process employs a defined custom-set model.

Step b420: staged nodes in the hard-set process are determined.

The hard-fitting process is completed by adopting a definite finishing step, and has the steps and the time sequence. The staged nodes satisfy a step division, which may be a utilization process for a partially custom hard-fit model, a join node for a decoration step, or a sequence node for a decoration step.

Step b430: and determining the related hard-fitting procedure.

The single hardcover process often has other hardcover processes associated with it, and the position of the customized hardcover model in some processes is dependent on the position of other customized hardcover models in other processes, for example, the position of the spotlight is dependent on the position of the ceiling, so we need to place the ceiling first and then place the spotlight.

Step b440: and adjusting the decoration implementation process between the staged nodes according to the primary and secondary relations of the mutual influence of the hard-fitting working procedures to form a hard-fitting sequence.

The decoration implementation order of the custom-made hard-packed models in each related hard-packed procedure is to build a primary-secondary relation by firstly placing the custom-made hard-packed models influencing the placement positions of other models.

The customized hard-fitting design method provided by the embodiment of the invention fully coordinates the mutual influence degree among the hard-fitting working procedures in the hard-fitting space, optimizes the decoration implementation process among the hard-fitting working procedures, effectively eliminates the conflict among the hard-fitting working procedures, avoids the material accumulation and occupation space, and can effectively shorten the hard-fitting process to save time and labor cost.

As shown in fig. 10, in an embodiment of the present invention, the step b500 includes:

step b510: a set of custom hard-fit models is formed that involves different hard-fit procedures.

The method relates to different hard-fitting procedures, comprising the same customized hard-fitting model participating in different hard-fitting procedures, and also comprising the customized hard-fitting models forming a matching relationship in different hard-fitting procedures.

Step b520: adjustment parameters for each type of custom hardcover model are determined.

The custom hard-set models of the same type have the same physical parameters including, for example, edge profile definition of the material or freedom of movement of the component, and corresponding morphology tuning ranges based on the physical parameters including, but not limited to, morphology parameters of size, angle, orientation, pitch, etc.

Step b530: and optimizing layout forms among the formation of adjustment parameters of related custom-made hard-set models in the custom-made hard-set model set according to the hard-set procedure.

According to the expression information of the clients, the user-type custom demand data can be obtained, and the function description and the optimal matching demand of the local space can be obtained. And fitting adjustment parameters between related custom-made hard-fitting models to form optimization of layout forms, and obtaining response fitting parameters.

The custom-made hardcover design method of the embodiment of the invention fully coordinates the matching form among relevant custom-made hardcover models, so that the matching connection among the hardcover processes in the hardcover space is reasonably optimized, the local and the whole coordination of the hardcover space is formed, the expression information of the customer is satisfied, and the optimized simulation result is formed.

The custom-made hardcover design device is used for determining the hardcover reference space according to the house type custom-made demand data of the customer, determining the hardcover decoration sequence between the custom-made hardcover models in the hardcover reference space according to the working procedure rules, and forming the ordered layout of the custom-made hardcover models according to the arrangement rules.

The architecture of a custom hard-packaged design device according to an embodiment of the present invention is shown in fig. 11, and in fig. 11, the custom hard-packaged design device includes:

the requirement forming module b1100 is used for receiving the expression information of the clients and forming household customized requirement data;

the space definition module b1200 is used for forming a space type and a space reference of the hard-packaged space according to the house type custom demand data;

the rule determining module b1300 is used for determining a procedure rule set according to the space type and determining a placement rule set according to the space type and the space reference;

the procedure determining module b1400 is used for customizing the hard-fitting models to form a hard-fitting sequence by matching according to a procedure rule set;

the form determining module b1500 is configured to customize the layout form between the hard-packed models according to the set of placement rules.

As shown in fig. 11, in an embodiment of the present invention, the requirement forming module b1100 includes:

The tag obtaining unit b1110 is used for obtaining a feature tag of a functional description of the hard-wearing space by a client in an interactive mode;

a space description unit b1120, configured to obtain a space description of the hard-wired space through an interaction manner;

the custom data unit b1130 is configured to combine the coordinate data and the function description to form custom requirement data for each part of the hard-packaged space.

As shown in fig. 11, in an embodiment of the present invention, the space definition module b1200 includes:

a type determining unit b1210, configured to determine a usage type of each part of the hard-packaged space according to the feature tag;

a structure determining unit b1220 for determining a hard-packed space critical structure according to the space description;

and the space description unit b1230 is used for determining the coordinate system of the hard-packaged space and the coordinate range of the key structure according to the house type customization demand data to form a space type and a space reference.

As shown in fig. 11, in an embodiment of the present invention, the rule determining module b1300 includes:

a process determining unit b1310, configured to determine a process rule set of the hard-packaged space part according to the local space type;

the placement determination unit b1320 is configured to determine a placement rule set of the customized hard-wired model according to the local space type and the local space reference.

As shown in fig. 11, in an embodiment of the present invention, the process determining module b1400 includes:

a model determining unit b1410 for determining a custom-made hard-set model used in the hard-set process;

node determining means b1420 for determining a stepwise node in the hard-mounting process;

a process determining unit b1430 for determining a related hard-set process;

and the procedure adjusting unit b1440 is used for adjusting the decoration implementation process to form a hard-packed sequence according to the primary and secondary relations of the mutual influence of the hard-packed procedures among the staged nodes.

As shown in fig. 11, in an embodiment of the present invention, the morphology determining module b1500 includes:

a model assembly unit b1510 for forming a custom-made hard-set model assembly involving different hard-set processes;

a model parameter unit b1520 for determining adjustment parameters of each type of custom-made hard-set model;

and a parameter adjustment unit b1530 for optimizing the layout form between adjustment parameter formation for the relevant custom-made hard-made models in the custom-made hard-made model set according to the hard-made process.

The custom hard-packaged design device of the embodiment of the invention comprises:

the memory is used for storing program codes corresponding to the processing process of the customized hard-package design method;

and the processor is used for executing the program codes corresponding to the processing procedure of the customized hard-package design method.

The processor may employ a DSP (Digital Signal Processing) digital signal processor, an FPGA (Field-Programmable Gate Array) Field programmable gate array, a MCU (Microcontroller Unit) system board, a SoC (system on a chip) system board, or an PLC (Programmable Logic Controller) minimum system including I/O.

The present invention is not limited to the above-mentioned embodiments, and any changes or substitutions that can be easily understood by those skilled in the art within the technical scope of the present invention are intended to be included in the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the protection scope of the claims.

Claims (8)

1. A method of custom hard-fitting design, comprising:

determining a hard-fitting reference space through custom-made demand data of a customer, determining a hard-fitting decoration sequence between custom-made hard-fitting models in the hard-fitting reference space through process rules, and forming ordered layout of the custom-made hard-fitting models through placement rules, wherein the method comprises the following steps:

-receiving the customer's expression information to form house type custom demand data, comprising:

the characteristic labels of the functional description of the customer on the hard-packaged space are obtained in an interactive mode; the characteristic label comprises the working procedures, wherein the working procedures at least comprise top surface decoration, wall decoration, ground decoration and waterway circuit decoration; materials and components included in the working procedure are determined by customizing a hard-fitting model in a hard-fitting reference space;

Carrying out space description on the hard-packed space in an interactive mode; the interaction mode adopts building model data or space measurement data;

combining the coordinate data and the function description to form house type custom-made requirement data of each part of the hard-packaged space; the house type custom-made demand data comprises materials and components adopted in each part of the hard-packed space and construction effects expected to be formed;

-forming a space type and a space reference of the hard-wired space from the house-type custom demand data, comprising:

determining the type of the application of each part of the hard-packed space according to the characteristic label;

determining a hard-wired space key structure according to the space description;

determining a coordinate system of a hard-packaged space and a coordinate range of a key structure according to house type customization demand data to form a space type and a space reference;

-determining a set of process rules from said spatial type, a set of placement rules from said spatial type and said spatial reference, comprising:

determining a process rule set of the hard-packaged space part according to the local space type;

determining a placement rule set of the customized hard-packed model according to the local space type and the local space reference;

-matching said custom hardcoat models to form a hardcoat sequence according to said set of process rules, comprising:

Determining a custom-made hardcover model for use in the hardcover process;

determining a staged node in the hard-fitting process;

determining related hard-fitting procedures;

adjusting decoration implementation processes among the staged nodes according to the primary-secondary relationship of the mutual influence of the hard-fitting procedures to form a hard-fitting sequence;

-forming a layout form between the custom hard-wired models according to the set of placement rules, comprising:

forming a custom-made hardcover model set involving different hardcover procedures;

determining adjustment parameters of each type of custom-made hard-fitting model;

and optimizing layout forms among the formation of adjustment parameters of related custom-made hard-set models in the custom-made hard-set model set according to the hard-set procedure.

2. The custom hard-pack design method of claim 1, further comprising:

and adapting the selected hard-fitting components through the personal characteristic data of the client and the custom demand data, and restricting the assembly of the alternative hard-fitting components through design rules to form the custom hard-fitting model conforming to the personal characteristic and the custom demand.

3. The custom hard-pack design method of claim 2, wherein adapting the custom hard-pack component via customer personal characteristic data and custom demand data comprises:

Receiving expression information of a client to form the personal characteristic data and the custom demand data;

obtaining general matching data of the hard-packaged component matched with the customized demand data;

and determining the alternative hard-packaged component by adapting the personal characteristic data and the custom demand data to the general matching data.

4. The custom hard-pack design method of claim 3, wherein constraining the assembly of the alternative hard-pack components by design rules comprises:

adapting the custom hard-pack design rules that match the personal characteristic data;

and matching the custom demand data with the design rules to form an alternative hard-packaged model.

5. The custom hard-pack design method of claim 2, wherein forming a custom hard-pack model that meets personal characteristics and custom requirements comprises:

providing the display image of the alternative hardcover model, and readjusting the alternative hardcover model according to the corresponding correction parameters of the display image until the customized hardcover model is determined.

6. The custom hard-pack design method of claim 5, wherein said readjusting said alternative hard-pack model based on corresponding correction parameters for the presentation image until after determining the custom hard-pack model comprises:

And forming key production information by the material matching structure of the alternative hard-packed model or the customized hard-packed model.

7. The custom-made hardcore design device is characterized by being used for determining a hardcore reference space according to custom-made demand data of a customer, determining a hardcore decoration sequence among custom-made hardcore models in the hardcore reference space according to process rules, and forming ordered layout of the custom-made hardcore models according to placement rules; the method comprises the following steps:

the demand forming module is used for receiving the expression information of the clients and forming household customized demand data;

the space definition module is used for forming a space type and a space reference of the hard-packaged space according to the house type customization demand data;

the rule determining module is used for determining a procedure rule set according to the space type and determining a placement rule set according to the space type and the space reference;

the procedure determining module is used for customizing the hard-fitting models to form a hard-fitting sequence according to the matching of the procedure rule sets;

the form determining module is used for customizing the hard-packed models to form layout forms according to the set of the layout rules;

the demand forming module includes:

the tag acquisition unit is used for acquiring a characteristic tag for performing functional description on the hard-packaged space by a client in an interactive mode; the characteristic label comprises the working procedures, wherein the working procedures at least comprise top surface decoration, wall decoration, ground decoration and waterway circuit decoration; materials and components included in the working procedure are determined by customizing a hard-fitting model in a hard-fitting reference space;

The space description unit is used for obtaining the space description of the hard-packaged space in an interactive mode; the interaction mode adopts building model data or space measurement data;

the custom data unit is used for combining the coordinate data and the function description to form house type custom demand data of each part of the hard-packaged space; the house type custom-made demand data comprises materials and components adopted in each part of the hard-packed space and construction effects expected to be formed;

the space definition module includes:

the type determining unit is used for determining the type of the application of each part of the hard-packaged space according to the characteristic tag;

the structure determining unit is used for determining a hard-packed space key structure according to the space description;

the space description unit is used for determining a coordinate system of the hard-packaged space and a coordinate range of the key structure according to the house type customization demand data to form a space type and a space reference;

the rule determination module includes:

the procedure determining unit is used for determining a procedure rule set of the local part of the hard-packaged space according to the local space type;

the placement determining unit is used for determining a placement rule set of the customized hard-packaged model according to the local space type and the local space reference;

the process determination module includes:

A model determination unit configured to determine a custom-made hard-set model used in the hard-set process;

the node determining unit is used for determining the staged nodes in the hard-mounting procedure;

a process determining unit for determining a related hard-fitting process;

the procedure adjusting unit is used for adjusting decoration implementation procedures between the staged nodes according to the primary-secondary relation of the mutual influence of the hard-fitting procedures to form a hard-fitting sequence;

the morphology determination module includes:

a model assembly unit for forming a customized hard-set model assembly involving different hard-set procedures;

the model parameter unit is used for determining adjustment parameters of each type of customized hard-packed model;

and the parameter adjusting unit is used for optimizing layout forms among adjustment parameter formation of related custom-made hard-set models in the custom-made hard-set model set according to the hard-set procedure.

8. The custom hard-packaged design device of claim 7, further configured to adapt the optional hard-packaged components via customer personal characteristic data and custom demand data, and to constrain assembly of the optional hard-packaged components via design rules to form a custom hard-packaged model that meets personal characteristics and custom demands.