CN110096740B

CN110096740B - Method, device, computer equipment and storage medium for generating jewelry model

Info

Publication number: CN110096740B
Application number: CN201910237333.9A
Authority: CN
Inventors: 周会祥
Original assignee: Shenzhen Xingfang Technology Co ltd
Current assignee: Shenzhen Xingfang Technology Co ltd
Priority date: 2019-03-27
Filing date: 2019-03-27
Publication date: 2023-06-27
Anticipated expiration: 2039-03-27
Also published as: CN110096740A

Abstract

The application relates to a jewelry model generation method, a jewelry model generation device, a computer device and a storage medium. The method comprises the following steps: receiving a modeling request from a client for obtaining a jewelry model; the modeling request carries jewelry attributes and jewelry features subordinate to each jewelry attribute; generating a corresponding jewelry model according to the jewelry attributes and the jewelry characteristics; detecting whether the jewelry model supports production; and if the jewelry model is confirmed to support production, sending the jewelry model to a client for display. By adopting the method, the purpose of automatically generating the corresponding jewelry model according to the jewelry characteristics is realized, manual design and modeling are not needed, the generation process of the jewelry model is simplified, the generation efficiency of the jewelry model is improved, and the defect that the generation of the jewelry model in the prior art needs to be manually modeled according to a jewelry design drawing, so that the process is complicated is overcome; and by detecting whether the generated jewelry model supports production, the validity of the generated jewelry model can be ensured.

Description

Method, device, computer equipment and storage medium for generating jewelry model

Technical Field

The present application relates to the field of data processing technologies, and in particular, to a method, an apparatus, a computer device, and a storage medium for generating a jewelry model.

Background

With the continuing development of market economies and the increasing consumer economies in recent years, more and more customized products are presented to users, such as customized jewelry.

Currently, in order to customize jewelry, a designer generally designs a jewelry design drawing according to the needs of a customer, then manually builds a 3D jewelry model drawing based on software by a modeling engineer, and finally sends the jewelry model drawing to a factory for jewelry making after confirmation of the customer. However, in the jewelry customization process, in order to meet the user requirements, a designer needs to continuously contact with a customer and a modeling engineer for multiple times, and the whole process is complex; and through manual design and modeling, the process is complicated, so that the generation efficiency of the jewelry model is extremely low.

Disclosure of Invention

In view of the foregoing, it is desirable to provide a jewelry model generation method, apparatus, computer device, and storage medium that can improve the generation efficiency of jewelry models.

A method of generating a jewelry model, the method comprising:

Receiving a modeling request from a client for obtaining a jewelry model; the modeling request carries jewelry attributes and jewelry features subordinate to each jewelry attribute;

generating a corresponding jewelry model according to the jewelry attributes and the jewelry characteristics;

detecting whether the jewelry model supports production;

and if the jewelry model is confirmed to support production, sending the jewelry model to the client for display.

A method of generating a jewelry model, the method comprising:

detecting an operation event for building a jewelry model, and sending a modeling request to a server; the modeling request carries jewelry attributes selected by the operation event and jewelry characteristics subordinate to each jewelry attribute;

receiving the jewelry model sent by the server; the jewelry model is generated from the jewelry attributes and the jewelry features; the jewelry model confirms a jewelry model supporting production for the server;

the jewelry model is displayed.

A jewelry model generation apparatus, the apparatus comprising:

a request receiving module for receiving a modeling request from a client for obtaining a jewelry model; the modeling request carries jewelry attributes and jewelry features subordinate to each jewelry attribute;

The model generation module is used for generating a corresponding jewelry model according to the jewelry attributes and the jewelry characteristics;

a model detection module for detecting whether the jewelry model supports production;

and the model sending module is used for sending the jewelry model to the client for display if the jewelry model is confirmed to support production.

A computer device comprising a memory storing a computer program and a processor which when executing the computer program performs the steps of:

detecting whether the jewelry model supports production;

A computer readable storage medium having stored thereon a computer program which when executed by a processor performs the steps of:

detecting whether the jewelry model supports production;

The method, the device, the computer equipment and the storage medium for generating the jewelry model generate the corresponding jewelry model through the jewelry attribute and the jewelry feature subordinate to the jewelry attribute; detecting whether the jewelry model supports production, and if the jewelry model supports production, sending the jewelry model to a client for display; the purpose of automatically generating the corresponding jewelry model according to the jewelry characteristics is achieved, manual design and modeling are not needed, the generation process of the jewelry model is simplified, the generation efficiency of the jewelry model is improved, and the defect that the generation of the jewelry model in the prior art needs to be manually modeled according to a jewelry design drawing, so that the process is complicated is overcome; meanwhile, the jewelry model is detected, whether the generated jewelry model supports production or not can be confirmed, and the effectiveness of the generated jewelry model is ensured.

Drawings

FIG. 1 is an application scenario diagram of a method of jewelry model generation in one embodiment;

FIG. 2 is a flow diagram of a method of jewelry model generation in one embodiment;

FIG. 3 is a flow diagram of steps for generating a corresponding jewelry model based on jewelry attributes and jewelry characteristics in one embodiment;

FIG. 4 is a schematic diagram of an interface for jewelry quotation information in one embodiment;

FIG. 5 is a flow chart of a method of creating a jewelry model in another embodiment;

fig. 6 is a flow chart of a method of creating a jewelry model in yet another embodiment;

fig. 7 is a block diagram of a jewelry model generation apparatus in one embodiment;

fig. 8 is an internal structural diagram of a computer device in one embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application will be further described in detail with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the present application.

The jewelry model generation method provided by the application can be applied to an application environment shown in fig. 1. Wherein the terminal 110 communicates with the server 120 through a network. Terminal 110 is equipped with a corresponding client through which a jewelry personalization customization platform may be logged in through which a user may customize jewelry. The client detects a user's selection operation on a jewelry customization interface in a jewelry personalization customization platform, generates a modeling request for acquiring a jewelry model, and sends the modeling request to server 120. The server 120 parses the modeling request to obtain jewelry attributes and jewelry features underlying each jewelry attribute; generating a corresponding jewelry model according to the jewelry attributes and the jewelry characteristics; detecting whether the jewelry model supports production, and if the jewelry model is confirmed to support production, sending the jewelry model to the client. The client presents the received jewelry model via a jewelry customization interface. The terminal 110 may be, but not limited to, various personal computers, notebook computers, smart phones and tablet computers, and the client may be a browser or APP; the server 120 may be implemented as a stand-alone server or as a server cluster composed of a plurality of servers.

In one embodiment, as shown in fig. 2, a method for generating a jewelry model is provided, and the method is applied to the server in fig. 1 for illustration, and includes the following steps:

step S201, receiving a modeling request from a client for acquiring a jewelry model; the modeling request carries jewelry attributes and jewelry features subordinate to each jewelry attribute.

In this step, the jewelry model refers to a 3D effect model diagram of jewelry; the jewelry attributes are used to describe information about various dimensions of jewelry, such as metal and color forming, gemstone type, jewelry class, color, basic features, appearance features, production process, pattern features, etc.; the jewelry characteristics are used for identifying jewelry information corresponding to different jewelry attributes, such as diamond, pearl, goslarite, jadeite, fritillary bulb, crystal, pearl and the like aiming at the types of gemstones; for the jewelry category, the jewelry features may be necklaces, bracelets, chains, pins, earrings, pendants, rings, bracelets, pendants, brooches, and the like.

In an alternative embodiment, a user can open a jewelry personalized customization platform through a client (such as APP), log in through account information and enter a jewelry customization interface, and a plurality of jewelry attribute options are simultaneously displayed on the jewelry customization interface, wherein each jewelry attribute option corresponds to a jewelry attribute model library, and each jewelry attribute model library comprises a plurality of jewelry features for selection by the user; the user may construct a personalized jewelry model by selecting a jewelry property option on the jewelry customization interface. The client detects the selection operation of the jewelry attribute options on the jewelry customization interface by the user, generates a modeling request for acquiring the jewelry model, and sends the generated modeling request to a corresponding server. The server analyzes the received modeling request to obtain the jewelry attribute selected by the user and the jewelry feature subordinate to the jewelry attribute. It should be noted that, the present application is not limited to the specific number of jewelry property options on the jewelry customization interface and the layout manner of the plurality of jewelry property options.

In addition, the user can enter the jewelry customization interface through logging in a browser running in the terminal, trigger a modeling request for acquiring the jewelry model by selecting jewelry attribute options on the jewelry customization interface, and send the modeling request to the server through the terminal so as to trigger the server to generate the corresponding jewelry model according to the modeling request.

Step S202, generating a corresponding jewelry model according to the jewelry attributes and the jewelry characteristics.

In the specific implementation, the server combines the jewelry characteristics corresponding to the jewelry attributes and automatically generates a corresponding jewelry model; therefore, the user only needs to select the jewelry characteristics corresponding to the jewelry attributes, and the server can generate the corresponding jewelry models according to the jewelry characteristics, so that the operation amount of manual design and modeling of the user is reduced, the generation process of the jewelry models is simplified, and the generation efficiency of the jewelry models is further improved; meanwhile, the personalized customization requirement of the user on jewelry is met.

Step S203, it is checked whether the jewelry model supports production.

In a specific implementation, the server detects the process accuracy of the jewelry features in the generated jewelry model in real time to confirm whether the generated jewelry model supports production or not; if the process precision of the jewelry features in the generated jewelry model supports production, confirming that the generated jewelry model supports production, namely the generated jewelry model is effective; if the process accuracy of one jewelry feature does not support production, the generated jewelry model is confirmed to not support production, namely the generated jewelry model is invalid, and the user needs to be reminded of readjustment. Therefore, by detecting the generated jewelry model, the effectiveness of the generated jewelry model can be ensured, the defect that the generated jewelry model is invalid and needs to be repeatedly adjusted, so that the generation time of the jewelry model is prolonged is avoided, and the generation efficiency of the jewelry model is further improved.

Step S204, if the jewelry model is confirmed to support production, the jewelry model is sent to a client for display.

If the server confirms that the jewelry model supports production, the jewelry model supporting production is sent to a corresponding client; the client displays the jewelry model through the jewelry customization interface.

Further, the user can also adjust the jewelry model displayed by the client according to the requirement, such as pulling the model effect to adjust the jewelry model; the method comprises the steps that a client obtains adjustment operation information of a user on a jewelry model, the adjustment operation information is sent to a server, the server updates the jewelry model based on the adjustment operation information, the updated jewelry model is sent to the client, and the client refreshes and displays the updated jewelry model; in addition, the server synchronously records the characteristic information of the updated jewelry model on each jewelry attribute so as to send the characteristic information of the jewelry model on each jewelry attribute to a corresponding production client after the user confirms the jewelry model, thereby realizing jewelry customization. According to the method and the device, the purpose of automatically generating the corresponding jewelry model according to the jewelry characteristics is achieved, and the defect that a person lacking professional knowledge in the fields of jewelry industry, art design, 3D modeling and the like cannot realize personalized jewelry customization by himself is overcome; and manual design and modeling are not needed, so that the jewelry customization cost is reduced.

In the method for generating the jewelry model, the corresponding jewelry model is generated through the jewelry attribute and the jewelry feature subordinate to the jewelry attribute; detecting whether the jewelry model supports production, and if the jewelry model supports production, sending the jewelry model to a client for display; the purpose of automatically generating the corresponding jewelry model according to the jewelry characteristics is achieved, manual design and modeling are not needed, the generation process of the jewelry model is simplified, the generation efficiency of the jewelry model is improved, and the defect that the generation of the jewelry model in the prior art needs to be manually modeled according to a jewelry design drawing, so that the process is complicated is overcome; meanwhile, the jewelry model is detected, whether the generated jewelry model supports production or not can be confirmed, and the effectiveness of the generated jewelry model is ensured.

Considering that in the process of generating the pearl models, the jewelry characteristics corresponding to metal, color forming and ornament types are needed to be selected firstly so as to determine what materials and what types of jewelry models are designed, and then the jewelry models are corrected according to the jewelry characteristics corresponding to other selected jewelry attributes, so that the jewelry characteristics can be divided into first jewelry characteristics and second jewelry characteristics, wherein the first jewelry characteristics comprise jewelry characteristics of which the jewelry attributes are metal, color forming and ornament types subordinate; wherein the metallic and color forming subordinate jewelry features include: gold, platinum, 18K gold, silver, phantom gold, etc., the jewelry characteristics of the jewelry category include: necklace, bracelet, foot chain, ear nail, earring, pendant, ring, etc. The second jewelry feature comprises: the jewelry attribute is at least one of subordinate jewelry characteristics such as the kind of precious stone, the artistic characteristics of ornaments and the like; wherein the jewelry characteristics of the subordinate gemstones include: diamond, pearl, goslarite, jadeite, fritillaria and the like, and the ornamental article technological characteristics comprise color, basic characteristics, appearance characteristics, production technology and pattern characteristics; wherein the jewelry features of the color subgeneric include: yellow, white, red, green, bi-color, tri-color, etc., jewelry features underlying the basic feature include: children, men's wear, women's wear, neutrality, etc., and jewelry features underlying the appearance feature include: the jewelry features of the line face (plane), stereo and the like, which are subordinate to the production technology, comprise: batch flower, smooth surface, die casting, nailing sand, frosting, weaving, bench dress, pushing sand etc., and the jewelry features subordinate to the pattern features include: animals (e.g., mice, cows, pigs, etc.), plants (flowers, trees, apples, etc.), characters (e.g., guan gong, guan yin, buddha, etc.), dragon and phoenix (e.g., dragon, phoenix, dragon and phoenix, etc.), lucky patterns (e.g., double happiness, fortune, longevity, wealth, etc.), geometric figures (e.g., heart, circles, egg, star, etc.), special figures (e.g., lines, humanoid, numbers, english, etc.).

In one embodiment, as shown in FIG. 3, the step of generating a corresponding jewelry model based on jewelry attributes and jewelry characteristics specifically includes:

step S301, generating an initial jewelry model according to the first jewelry feature.

Step S302, acquiring a position label of the second jewelry feature in the initial jewelry model;

step S303, correcting the initial jewelry model according to the second jewelry feature and the corresponding position label thereof, and generating a corresponding jewelry model.

In this embodiment, the initial jewelry model is a jewelry model composed of only metal and jewelry characteristics of the color forming and jewelry category, for example, the metal and jewelry characteristics of the color forming subordinate are gold, the jewelry characteristics of the jewelry category subordinate are rings, and then the corresponding initial jewelry model is a single gold ring model. The location tag refers to location information identifying the second jewelry feature in the corresponding initial jewelry model. It should be noted that, the number of the second jewelry features is not particularly limited in the present application, and may be one or more; the order of selection of the second jewelry feature is also not particularly limited.

In a specific implementation, the server may further query a local database storing a plurality of initial jewelry models formed by the first jewelry feature sets according to the first jewelry feature sets, to obtain an initial jewelry model formed by the acquired first jewelry feature sets, as a generated initial jewelry model; acquiring a position label of the second jewelry feature in the initial jewelry model by analyzing the second jewelry feature and the initial jewelry model; determining a corresponding position of the second jewelry feature in the initial jewelry model according to the position label; and respectively combining the second jewelry characteristics to the corresponding positions in the initial jewelry model according to the second jewelry characteristics and the corresponding positions in the initial jewelry model so as to correct the initial jewelry model, thereby generating the corresponding jewelry model. For example, a user may wish to design a lily head gold ring, and when the user selects jewelry features of different jewelry attributes, such as gold for metal and color, after the jewelry class is a ring, the terminal interface will display a gold plain ring (i.e., initial jewelry model), then after the lily for the design feature, the lily for the design feature will automatically be combined on the ring arm of the ring, and when the manufacturing process is a batch, the batch of lines will automatically be combined on the ring. Thus, the purpose of automatically generating the corresponding jewelry model according to the jewelry characteristics is achieved, manual design and modeling are not needed, the generation process of the jewelry model is simplified, and the generation efficiency of the jewelry model is improved; simultaneously, the second jewelry feature is automatically combined to a reasonable position in the initial jewelry model, thereby reducing the operation amount of the jewelry model adjusted by a user and further improving the generation efficiency of the jewelry model.

In one embodiment, step S302, described above, obtains a location tag for a second jewelry feature in an initial jewelry model, comprising: querying a pre-constructed position tag table according to the second jewelry feature and/or the initial jewelry model; the position label table records position labels of the second jewelry feature in a plurality of jewelry models; the position tags of the second jewelry feature in the initial jewelry model are obtained from a position tag table.

In an alternative embodiment, the server may query a pre-constructed list of location tags based on the second jewelry feature to determine the location tags of the second jewelry feature in the plurality of initial jewelry models; a location tag of the second jewelry feature in the initial jewelry model is obtained from the determined location tag.

In another alternative embodiment, the server may also query a pre-constructed list of location tags from the initial jewelry model to determine the location tags of the plurality of second jewelry features in the initial jewelry model; a location tag of the second jewelry feature in the initial jewelry model is obtained from the determined location tag. In this way, the position label of the second jewelry feature in the initial jewelry model is acquired, so that the second jewelry feature can be automatically combined to the corresponding position in the initial jewelry model, the operation amount of the jewelry model adjusted by a user is reduced, and the generation efficiency of the jewelry model is further improved.

Further, the location labels of the second jewelry feature in the plurality of jewelry models may be obtained by extensive data analysis. In one embodiment, the location tag table is obtained by the following method: obtaining a plurality of jewelry model samples; statistics of the location data of the second jewelry feature in the plurality of jewelry model samples; generating position labels of the second jewelry feature in different jewelry models according to the position data obtained through statistics; a position tag table is generated based on position tags of the second jewelry feature in different jewelry models.

In a specific implementation, the server collects a plurality of jewelry model samples in advance, and analyzes the jewelry model samples to count position data of the second jewelry feature in the plurality of jewelry model samples; comparing and analyzing a plurality of position data of a second jewelry feature in the jewelry model sample in the same category, determining reasonable position data of the second jewelry feature in the jewelry model sample, and generating a position label of the second jewelry feature in the jewelry model based on the reasonable position data; and so on, obtaining the position labels of the second jewelry feature in different jewelry models; constructing a position label table according to the position labels of the second jewelry feature in different jewelry models; in this way, the position label of the second jewelry feature in the initial jewelry model can be obtained by inquiring the pre-constructed position label table according to the second jewelry feature and the initial jewelry model, so that the second jewelry feature can be automatically combined to the corresponding position in the initial jewelry model based on the position label, the operation amount of a user for adjusting the jewelry model is reduced, and the generation efficiency of the jewelry model is further improved.

Further, after the server generates the pearl models, a string of jewelry identification codes for identifying jewelry styles corresponding to the generated jewelry models can be automatically generated according to jewelry characteristics subordinate to the jewelry attributes. In one embodiment, the step S202 further includes, after generating the corresponding jewelry model according to the jewelry attribute and the jewelry feature: inquiring the corresponding relation between preset jewelry characteristics and codes according to the jewelry characteristics, and determining the codes corresponding to the jewelry characteristics; and combining the codes corresponding to the jewelry characteristics according to a preset sequence to generate jewelry identification codes corresponding to the jewelry models.

Wherein the code is used for identifying jewelry characteristics, and can be numbers, letters or other characters; of course, the form of the code may be adjusted according to the actual situation. The jewelry identification code refers to unique information for identifying jewelry patterns, such as a number string, a character string, etc.; the jewelry identification codes have a one-to-one correspondence with jewelry styles.

For example, jewelry characteristics of the jewelry attributes such as metal and color forming, precious stone type, jewelry category, color, basic characteristics, appearance characteristics, production process, pattern characteristics and the like are full gold, stone-free inlay, ring, yellow, female dress, line surface, batch flower, lily pattern, and the server determines the corresponding codes of the full gold, stone-free inlay, ring, yellow, female dress, line surface, batch flower, lily pattern to be 16, 0, 07, 1, 2, 1, 01 and 205 respectively by inquiring the corresponding relation between the preset jewelry characteristics and the codes; the

codes

16, 0, 07, 1, 2, 1, 01, 205 are combined in a left to right order to produce a corresponding jewelry identification code of 16-0-07-1.2.1.01.205. It should be noted that, the jewelry feature may be represented by other characters, for example, the jewelry feature is represented by letters, and of course, the jewelry feature may be adjusted according to actual situations, which is not limited in the present application; the corresponding codes of the jewelry features can be combined according to other sequences, such as the

codes

16, 0, 07, 1, 2, 1, 01 and 205 are combined according to the sequence from right to left, the corresponding jewelry identification codes are 205.01.1.2.1-07-0-16, and the jewelry identification codes can be adjusted according to actual conditions; the combination form can also be other forms, for example, 16-0-07-1/2/1/01/205, and of course, the combination form can also be adjusted according to actual situations, and the combination form is not described in detail herein.

In addition, in the process of generating the bead identification code, the server can also generate a corresponding jewelry serial number, and the jewelry identification code is finally determined to be 16-0-07-1.2.1.01.205-001 on the assumption that the generated jewelry identification code is 16-0-07-1.2.1.01.205 and the serial number is 001. It should be noted that the jewelry identification codes finally determined can be combined in other sequences, and can be adjusted according to actual conditions; the final jewelry identification code combination may be other forms, such as 16-0-07-1/2/1/01/205-001, or may be modified according to the actual situation, which is not limited in this application.

In one embodiment, the correspondence of the preset jewelry feature to the code is obtained by: acquiring a plurality of jewelry attributes and a plurality of jewelry features corresponding to the jewelry attributes; configuring corresponding codes for each jewelry feature; and determining the corresponding relation between the jewelry characteristics and the codes according to the codes corresponding to the jewelry characteristics after configuration, and taking the corresponding relation as the corresponding relation between the jewelry characteristics and the codes.

Wherein, each jewelry attribute comprises metal, color, precious stone type, ornament craft characteristic and ornament number; the ornaments are characterized in that: color, basic features, topographical features, manufacturing processes, and pattern features.

For example, the server obtains a plurality of jewelry attributes such as metal and color forming, gemstone type, jewelry class, color, basic feature, outline feature, production process, pattern feature, and the like, and a plurality of jewelry features corresponding to the respective jewelry attributes based on big data technology; configuring corresponding codes for a plurality of jewelry characteristics corresponding to the same jewelry attribute respectively; for example, the gold (999) of the ornament is coded 111, the gold plating is coded 114, the 18K gold platinum 950 is coded 115, the gold (999) is coded 116, the platinum 950 is coded 12, the 18K gold is coded 13, the silver of S925 is coded 14, the silver of the ornament is coded 18, etc. for the metal and the color forming; according to the codes corresponding to the configured jewelry characteristics, determining the corresponding relation between the jewelry characteristics and the codes, and taking the determined corresponding relation between the jewelry characteristics and the codes as the preset corresponding relation between the jewelry characteristics and the codes; the corresponding relation between the preset jewelry characteristics and the codes is conveniently and accurately determined.

In one embodiment, configuring corresponding codes for each jewelry feature comprises: acquiring coding configuration strategies corresponding to the jewelry attributes; and configuring corresponding codes for the plurality of jewelry characteristics of the same jewelry attribute according to the code configuration strategy.

The code configuration strategy refers to a strategy for configuring corresponding codes for jewelry characteristics of the same jewelry attribute; for example, the jewelry characteristics of metal and color forming are represented by numerals 1 to 999, the jewelry characteristics of the jewelry class are represented by numerals 0 to 99, the jewelry characteristics of the jewelry class are represented by numerals 01 to 99, the jewelry characteristics of the color are represented by numerals 1 to 99, the jewelry characteristics of the basic characteristics are represented by numerals 0 to 9, the jewelry characteristics of the appearance characteristics are represented by numerals 1 to 9, the jewelry characteristics of the production process are represented by numerals 01 to 99 (the production process can be combined), and the jewelry characteristics of the pattern characteristics are represented by numerals 100 to 999 (the pattern characteristics can be combined). Thus, the corresponding codes of the jewelry characteristics can be obtained, and the corresponding relation between the jewelry characteristics and the codes can be conveniently and accurately determined.

In one embodiment, configuring corresponding codes for each jewelry feature comprises:

a method for configuring corresponding codes for jewelry features of metals and color-forming genera, comprising:

corresponding codes are respectively configured for gold, 950 platinum, 18K gold, S925 silver, ghost gold and group aromatic PT 950;

a corresponding code for a jewelry feature configuration subordinate to a gemstone class, comprising:

configuring corresponding codes for stone-free, diamond, pearl, bright stone, jadeite, fritillary bulb, crystal and pearl respectively;

Configuring corresponding codes for jewelry characteristics subordinate to the jewelry category, comprising:

corresponding codes are respectively configured for necklaces, bracelets, foot chains, earrings, pendants, rings, bracelets, hanging decorations, ornaments, gold bars and souvenirs Zhang Xiongzhen;

a corresponding code for jewelry feature configurations of colors underlying the jewelry process feature, comprising:

configuring corresponding codes for yellow, white, red, green, double colors and three colors respectively;

a jewelry feature configuration corresponding code for a basic feature underlying a jewelry process feature, comprising:

the codes corresponding to the child, men's wear, women's wear and neutral configuration are respectively coded;

a corresponding code for jewelry feature configuration of an outline feature underlying a jewelry process feature, comprising:

coding corresponding to the linear surface and the stereo configuration respectively;

a method for configuring a corresponding code for jewelry features of a production process to which the jewelry features belong, comprising:

respectively configuring corresponding codes for pattern-cutting, smooth surface, die casting, sand nailing, sanding, weaving, bench mounting and sand pushing;

a corresponding coding for jewelry feature configurations of pattern features underlying a jewelry process feature, comprising:

configuring corresponding codes for mice, cattle, pigs, dragon, snakes, chickens, monkeys, sheep, dogs, horses, tigers, rabbits, butterflies, elephants, dolphins, fish, cats and hawks respectively;

Configuring corresponding codes for flowers, trees, apples, strawberries, lily, birthday peaches, leaves and grapes;

configuring corresponding codes for Guanggong, guanyin, buddha, god of wealth and Zhongkui respectively;

respectively configuring corresponding codes for the dragon, the phoenix and the dragon and the phoenix;

the method is characterized by respectively configuring corresponding codes for double happiness, longevity, wealth, bringing in wealth and treasure, good luck, happiness, great success, happiness, sailing boat, calabash, natural lively, smart, shoe-shaped ingot, mandarin duck, hair, longevity, health, horse to function and heart to heart;

respectively configuring corresponding codes for heart shape, round shape, egg shape, star shape, moon shape, triangle shape, diamond shape, lock spoon shape, irregular figure, ball shape, rice flower, square shape, fan shape and column shape;

corresponding codes are configured for lines, figures, numbers, english, cross shapes and other types respectively.

It should be noted that, in addition to the above-listed categories of jewelry characteristics subordinate to each jewelry attribute, the number of jewelry characteristics subordinate to each jewelry attribute may be increased or decreased; such as adding metal and colour-forming jewelry features of the following genera: the ornament is gold-enough, gold-plated, phantom hard gold-enough, copper, jadeite, ultramarine platinum 950 and the like; of course, the adjustment may be performed according to actual situations, which is not limited in the present application.

In an alternative embodiment, the jewelry is configured with five attributes:

one or more jewelry features are configured for each attribute, and the specifications for configuring the codes corresponding to jewelry features may be as follows:

1. metal and colour forming

1 = thousand gold, 2 = 950 platinum, 3 = 18K gold, 4 = S925 silver, 5 = phantom thousand gold, 6 = ultramarine PT950;

2. kinds of precious stones

0=no stone, 1=diamond, 2=bead, 3=bright stone, 4=jadeite, 5=fritillary bulb, 6=crystal, 7=pearl;

3. ornament category

01 =necklace, 02=bracelet, 03=pin chain, 04=ear nail, 05=ear ring, 06=pendant, 07=ring, 08=bracelet, 09=pendant (including cell phone chain), 10=ornament, 11=gold bar, 12=souvenir badge, 13=brooch;

4. ornamental article technological characteristics

A. Color of

1=yellow, 2=white, 3=red, 4=green, 5=two colors, 6=three colors;

B. basic features

0=child, 1=men's wear, 2=women's wear, 3=neutral;

C. appearance characteristics

1=line face (plane), 2=stereo;

D. production process

01 Batch, 02 = smooth, 03 = die cast, 04 = staple, 05 = frosted, 06 = woven, 07 = bench, 08 = push;

E. pattern features

1 = animal

(101 = mouse, 102 = cow, 103 = pig, 104 = dragon, 105 = snake, 106 = chicken, 107 = monkey, 108 = sheep, 109 = dog, 110 = horse, 111 = tiger, 112 = rabbit, 113 = butterfly, 114 = elephant, 115 = dolphin, 116 = fish, 117 = cat, 118 = eagle);

2 = plant

(201=flower, 202=tree, 203=apple, 204=strawberry, 205=lily, 206=birthday peach, 207=leaf, 208=grape);

3 = person

(301 = guan gong, 302 = guanyin, 303 = buddha, 304 = god of wealth, 305 = Zhongkui);

4 = Dragon and phoenix

(401=dragon, 402=phoenix, 403=dragon and phoenix);

5 = lucky pattern

(501=double happiness, 502=happiness, 503=longevity, 504=wealth, 505=wealth and treasure, 506=lucky, 507=happiness, 508=plain sailing, 509=great luck, 510=happiness, 511=happiness, 512=happiness, 513=sailing boat, 514=calabash, 515=natural lived, 516=smart, 517=shoe-shaped gold ingot, 518=mandarin duck, 519=hair, 520=long and rich, 521=healthy, 522=marry to function, 523=mind-heart-print);

6 = geometry

(601 = heart, 602 = circle, 603 = egg, 604 = star, 605 = moon, 606 = triangle, 607 = diamond, 608 = lock spoon, 609 = irregular pattern, 610 = sphere, 611 = popcorn, 612 = square, 613 = sector, 614 = cylinder);

7 = special graphic

(701 = line, 702 = humanoid, 703 = number, 704 = english, 705 = cross, 706 = other class);

5. ornament number

No. 1 is defined as 001,2 as 002, … … as 010, … … as 100, and maximum number 999.

Based on the coding rules of the above embodiments, for a thousand golden female line face batch flower lily ring, the corresponding codes can be obtained as follows: 1-0-07-1/2/1/01/205-001. Wherein: the pure gold (1) stone-free embedded (0) ring (07) is characterized by being yellow (1), a female dress (2), a line surface (1), a batch of flowers (01) and lily patterns (205), and the corresponding ornament number is 001.

It should be noted that, the above five attributes and the ordering of jewelry features subordinate to each attribute may also be adjusted according to practical situations, for example, the coding of jewelry features subordinate to metal and color is adjusted as follows: 1 = ultramarine PT950,2 = phantom thousand gold, 3 = S925 silver, 4 = 18K gold, 5 = 950 platinum gold, 6 = thousand gold; of course, the coding of the jewelry features can be represented by letters or other characters besides numerals, and can be specifically adjusted according to actual conditions; in addition, the attributes may be increased or decreased, or the number of jewelry features subordinate to each attribute may be increased or decreased, depending on the actual situation.

Further, given that the generated jewelry model may not support production, it is desirable to detect the generated jewelry model to ensure the validity of the generated jewelry model. In one embodiment, step S203, above, detects whether the jewelry model supports production, including: if the jewelry identification code is matched with the known jewelry identification code, confirming that the jewelry model supports production; if the jewelry identification code is not matched with the known jewelry identification code, confirming that the jewelry model does not support production; wherein jewelry identification codes are known for identifying jewelry models that support production.

In the specific implementation, a server acquires a plurality of finished jewelry models supporting production in advance, and according to jewelry characteristics of the finished jewelry models, the server inquires a corresponding relation between preset jewelry characteristics and codes and determines the codes corresponding to the jewelry characteristics; the jewelry characteristics are combined according to a preset sequence to generate jewelry identification codes corresponding to the finished jewelry models, and the jewelry identification codes are used as known jewelry identification codes for identifying the finished jewelry models supporting production, so that a plurality of known jewelry identification codes can be obtained. The server matches the generated jewelry identification code of the jewelry model with the known identification code, and if the jewelry identification code is matched with the known jewelry identification code, the jewelry model is confirmed to support production, namely the jewelry model is effective; if the jewelry identification code does not match the known jewelry identification code, it is confirmed that the jewelry model does not support production, i.e., the jewelry model is not valid. Therefore, by detecting the generated jewelry model, the effectiveness of the generated jewelry model can be ensured, the defect that the generated jewelry model is invalid and needs to be repeatedly adjusted, so that the generation time of the jewelry model is prolonged is avoided, and the generation efficiency of the jewelry model is further improved.

In another embodiment, step S203, above, detects whether the jewelry model supports production, further includes: acquiring an accuracy value of a second jewelry feature in the jewelry model; if the precision values of the second jewelry feature of the jewelry model all meet the corresponding setting conditions, confirming that the jewelry model supports production; if the accuracy value of a second jewelry feature of the jewelry model does not meet the corresponding set condition, confirming that the jewelry model does not support production.

Wherein, the precision value refers to the corresponding numerical value of the size, shape, position and the like in the jewelry model; the set condition refers to the process precision value corresponding to the part capable of supporting the produced second jewelry feature in the jewelry model, and the process precision values corresponding to different parts are different.

In a specific implementation, the server analyzes the generated jewelry model to obtain an accuracy value of a second jewelry feature in the jewelry model; comparing the precision values of the second jewelry features of the jewelry model with corresponding set conditions, and if the precision values of the second jewelry features of the jewelry model meet the corresponding set conditions, confirming that the jewelry model supports production, namely that the jewelry model is effective; if the accuracy value of a second jewelry feature of the jewelry model does not meet the corresponding set condition, it is determined that the jewelry model does not support production, i.e. the jewelry model is not valid. For example, since the generated 3D jewelry model is produced by printing a wax pattern by a 3D printer and then reverse molding, and the accuracy of the 3D printer is also required, if the thickness value of a certain portion in the generated jewelry model is less than a certain value (typically 0.3 mm), it is confirmed that the portion does not support production, i.e., the generated jewelry model is not valid, and the user is required to readjust the parameter value of the portion. Therefore, by detecting the generated jewelry model, the effectiveness of the generated jewelry model can be ensured, the defect that the generated jewelry model is invalid and needs to be repeatedly adjusted, so that the generation time of the jewelry model is prolonged is avoided, and the generation efficiency of the jewelry model is further improved.

In one embodiment, after confirming that the jewelry model does not support production, further comprising: generating jewelry adjustment reminding information and sending the jewelry adjustment reminding information to the client. For example, after the thickness value of a certain part in the generated jewelry model is smaller than a certain value and the jewelry model is confirmed to not support production, corresponding jewelry adjustment reminding information is generated according to the thickness value of the part in the jewelry model, and the jewelry adjustment reminding information is sent to a client side so as to remind the client side to readjust the thickness value of the part corresponding to a user. In this way, the effectiveness of the generated jewelry model can be further ensured by alerting the user to readjust the jewelry model.

In addition, the server may also confirm the cost forecast value of the generated jewelry model. In one embodiment, the method of generating the jewelry model further comprises: receiving confirmation information sent by a client for the jewelry model; the confirmation information comprises parameter information of the jewelry model; calculating a cost prediction value of the jewelry model according to the parameter information and a preset calculation model; and generating jewelry quotation information according to the jewelry model, the parameter information and the cost predicted value, and sending the jewelry quotation information to the client.

In this embodiment, the parameter information of the jewelry model refers to jewelry information related to jewelry volume, material, process, size, etc., such as the length and turn of the jewelry, the size of the diamond, etc. The preset cost calculation model refers to a calculation model related to each cost item (such as surface process treatment cost, material cost and the like) of the jewelry model; each cost calculation model carries associated preset coefficients, such as surface process treatment cost coefficients, material cost coefficients, etc.

For example, the user performs other item selection operations on the jewelry model presented by the client interface, such as selecting the length of the jewelry item and the size of the collar, diamond, etc., and clicks a confirmation button to confirm the final jewelry model. The client responds to the selection and confirmation operation of the user on other items of the jewelry model, acquires the confirmation information of the user on the jewelry model, and sends the confirmation information to the server. The server analyzes the received confirmation information to obtain the parameter information of the jewelry model; inputting the parameter information into a preset cost calculation model, and calculating a cost prediction value of the jewelry model; acquiring a preset jewelry quotation information template, and acquiring position labels of a jewelry model, parameter information and a cost predicted value in the jewelry quotation information template; according to the position labels, respectively importing the jewelry model, the parameter information and the cost predicted value into corresponding positions in the jewelry quotation information template, generating corresponding jewelry quotation information, and sending the jewelry quotation information to the client. Displaying the jewelry model, the parameter information and the cost prediction value through a client interface, as shown in fig. 4; thus, the user can intuitively view and know the information of the jewelry and directly order the jewelry without ordering the jewelry through other ways, thereby simplifying the jewelry ordering flow.

In one embodiment, calculating a cost prediction value for the jewelry model based on the parameter information and the preset cost calculation model comprises: acquiring a cost calculation model corresponding to the jewelry model; the cost calculation model includes a plurality of cost items; calculating a cost prediction value corresponding to each cost item according to the parameter information; and obtaining the sum of the cost predicted values corresponding to the cost projects as the cost predicted value of the jewelry model.

In this embodiment, the cost calculation models corresponding to different jewelry models are different; the cost item refers to cost information associated with custom jewelry, such as wax pattern printing costs, surface processing costs, material costs, and the like.

For example, the server obtains a cost calculation model corresponding to the jewelry model by querying a local database; obtaining a plurality of cost items, namely, printing cost of a wax pattern, reverse cost, executing cost of the pattern, surface process treatment cost and material cost according to a cost calculation model; according to the parameter information and the cost items, respectively calculating cost prediction values corresponding to surface process treatment cost, material cost, wax pattern printing cost, reverse die cost and execution die cost; for example,

Surface process treatment cost = die execution cost x surface process treatment cost coefficient;

material cost = material coefficient x model volume;

after obtaining the cost predicted value corresponding to each cost item, the server calculates the sum of the cost predicted values corresponding to the surface process treatment cost, the material cost, the wax pattern printing cost, the reverse molding cost and the execution molding cost as the cost predicted value of the jewelry model; for example,

cost prediction value = wax pattern printing cost + reverse cost + handling cost + surface process treatment cost + material cost.

According to the method and the device, the purpose of automatically calculating the cost predicted value of the jewelry model according to the parameter information of the jewelry model and the preset cost calculation model is achieved, and the purpose is achieved for a user to refer to.

Further, if the user feels that the cost prediction value of the jewelry model is reasonable, the ordering operation may be directly initiated. In one embodiment, after sending the jewelry quotation information to the client, further comprising: receiving jewelry order information from a client; and generating a jewelry production order according to the jewelry order information, and sending the jewelry production order to a corresponding production client.

For example, the user clicks the "buy" button on the client interface displaying the jewelry quotation information, directly enters the jewelry purchase page, inputs the information such as the name, the mobile phone number, the address and the like of the addressee on the page, clicks the payment button, and can trigger the generation of jewelry order information after the payment is completed. The client detects the triggering operation of the user, generates jewelry order information based on the jewelry quotation information, and sends the jewelry order information to the server. The server analyzes the received jewelry order information to obtain information such as jewelry styles, quantity, addressee names, mobile phone numbers, addresses and the like, generates jewelry production orders based on the information, and sends the jewelry production orders to corresponding production clients. The production client analyzes the jewelry production order, can obtain jewelry identification codes and quantity corresponding to jewelry styles to be produced, and sends corresponding operation instructions to the numerical control machining center so as to trigger the numerical control machining center to automatically process and produce corresponding jewelry products according to the jewelry identification codes.

Further, the server may also track jewelry ordered by the user. In one embodiment, the method of generating the jewelry model further comprises: receiving a jewelry tracking inquiry request sent by a client; the jewelry tracking inquiry request carries a jewelry identification code; and acquiring jewelry tracking information corresponding to the jewelry identification code, and sending the jewelry tracking information to the client.

The jewelry tracking information refers to logistics information related to jewelry production, jewelry packaging, jewelry distribution and the like. For example, a user may trigger a query operation by clicking a jewelry tracking query button on a terminal interface for a jewelry order. The client detects the inquiring operation of the user, acquires the jewelry identification code in the jewelry order, generates a jewelry tracking inquiring request, and sends the jewelry tracking inquiring request to the server; the jewelry identification code also comprises jewelry serial numbers, which are used for distinguishing different ordering users of the same jewelry style; the server analyzes the received jewelry tracking inquiry request to obtain jewelry identification codes; inquiring the logistics system according to the jewelry identification code, acquiring jewelry tracking information corresponding to the jewelry identification code, sending the jewelry tracking information to a corresponding client, and displaying the corresponding jewelry tracking information through a client interface, so that a user can know the logistics information of jewelry in time.

In one embodiment, as shown in FIG. 5, another method of jewelry model generation is provided, comprising the steps of:

step S501, a modeling request for acquiring a jewelry model is received from a client; the modeling request carries jewelry attributes and jewelry features subordinate to each jewelry attribute.

Step S502, generating a corresponding jewelry model according to the jewelry attributes and the jewelry characteristics.

Step S503, according to the jewelry characteristics, inquiring the corresponding relation between the preset jewelry characteristics and the codes, and determining the codes corresponding to the jewelry characteristics; and combining the codes corresponding to the jewelry characteristics according to a preset sequence to generate jewelry identification codes corresponding to the jewelry models.

Step S504, according to the jewelry identification code, detecting whether the jewelry model supports production, if the jewelry identification code is matched with the known jewelry identification code, confirming that the jewelry model supports production; if the jewelry identification code is not matched with the known jewelry identification code, confirming that the jewelry model does not support production; wherein jewelry identification codes are known for identifying jewelry models that support production.

Step S505, if the jewelry model is confirmed to support production, the jewelry model is sent to a client for display.

Step S506, receiving confirmation information of the jewelry model sent by the client; the confirmation information comprises parameter information of the jewelry model; calculating a cost prediction value of the jewelry model according to the parameter information and a preset cost calculation model; and generating jewelry quotation information according to the jewelry model, the parameter information and the cost predicted value, and sending the jewelry quotation information to the client.

Step S507, receiving jewelry order information from a client; and generating a jewelry production order according to the jewelry order information, and sending the jewelry production order to a corresponding production client.

According to the embodiment, the purpose of automatically generating the corresponding jewelry model according to the jewelry characteristics is achieved, manual design and modeling are not needed, the generation process of the jewelry model is simplified, the generation efficiency of the jewelry model is improved, and the defect that the generation of the jewelry model in the prior art needs manual modeling according to a jewelry design drawing, so that the process is complicated is overcome; meanwhile, the jewelry model is detected, whether the generated jewelry model supports production or not can be confirmed, and the effectiveness of the generated jewelry model is ensured.

In yet another embodiment, as shown in fig. 6, there is provided a method for generating a jewelry model, which is described by taking the application of the method to the client in fig. 1 as an example, and includes the following steps:

step S601, detecting an operation event for establishing a jewelry model, and sending a modeling request to a server; the modeling request carries the jewelry attributes selected by the operational event and the jewelry characteristics subordinate to each jewelry attribute.

Step S602, receiving a jewelry model sent by a server; the jewelry model is generated according to jewelry attributes and jewelry characteristics; the jewelry model confirms for the server the jewelry model that supports production.

Step S603, displaying the jewelry model.

According to the embodiment, the purpose of automatically generating the corresponding jewelry model according to the jewelry characteristics is achieved, manual design and modeling are not needed, the jewelry model generation process is simplified, and the jewelry model generation efficiency is improved.

In one embodiment, the method of generating the jewelry model further comprises: detecting a conversion operation event for converting the displayed jewelry model, and sending a model conversion request to a server; the model conversion request carries the model conversion type selected by the conversion operation event; receiving a dynamic jewelry model sent by a server; the dynamic jewelry model is a jewelry model converted by a server based on a dynamic rendering file corresponding to the model conversion type; a dynamic jewelry model is displayed.

In this embodiment, the dynamic rendering file refers to a file capable of converting a static jewelry model into a dynamic jewelry model. For example, the user performs a transformation operation on the jewelry model displayed by the client, such as pulling the model display effect; the client detects a conversion operation event of a user on the displayed jewelry model, obtains a model conversion type selected by the user, generates a model conversion request based on the model conversion type, and sends the model conversion request to the server. The server acquires a dynamic rendering file corresponding to the model conversion type from a local database; based on the dynamic rendering file, the jewelry model is converted into a dynamic jewelry model, and the dynamic jewelry model is sent to a client for display. Thus, the user can conveniently and intuitively view the generated jewelry model in all directions.

Further, after the server sends the generated jewelry model to the client for display, the user can also adjust the jewelry model displayed by the client according to the self requirement. In one embodiment, the method of generating the jewelry model further comprises: detecting an adjustment operation event for adjusting the displayed jewelry model, and sending a model adjustment request to a server; the model adjustment request carries adjustment operation information corresponding to the adjustment operation event; receiving the adjusted jewelry model sent by the server; the adjusted jewelry model is a jewelry model adjusted by the server based on the adjustment operation information; displaying the adjusted jewelry model. .

For example, the user performs an adjustment operation on the jewelry model displayed on the client interface to adjust the jewelry model effect, thereby changing the corresponding jewelry style. The method comprises the steps that a client detects adjustment operation of a user on a jewelry model, acquires corresponding adjustment operation information, generates an adjustment request for the jewelry model based on the adjustment operation information, and sends the generated adjustment request to a corresponding server. The server adjusts the jewelry model according to the received adjustment request, for example, according to the adjusted jewelry characteristics, generating an adjusted jewelry model; the server can also detect whether the adjusted jewelry model supports production, and if the adjusted jewelry model is confirmed to support production, the adjusted jewelry model is sent to the client; the client refreshes the display of the adjusted jewelry model. By the embodiment, the requirement of users for randomly adjusting the automatically generated jewelry model is met. In addition, the corresponding jewelry identification code changes during the generation of the adjusted jewelry model.

It should be understood that, although the steps in the flowcharts of fig. 2-3, 5-6 are shown in order as indicated by the arrows, these steps are not necessarily performed in order as indicated by the arrows. The steps are not strictly limited to the order of execution unless explicitly recited herein, and the steps may be executed in other orders. Moreover, at least some of the steps of FIGS. 2-3, 5-6 may include multiple sub-steps or stages that are not necessarily performed at the same time, but may be performed at different times, nor does the order in which the sub-steps or stages are performed necessarily occur in sequence, but may be performed alternately or alternately with other steps or at least a portion of the sub-steps or stages of other steps.

In one embodiment, as shown in fig. 7, there is provided a jewelry model generation apparatus comprising: a request receiving module 710, a model generating module 720, a model detecting module 730, and a model transmitting module 740, wherein:

a request receiving module 710 for receiving a modeling request from a client for obtaining a jewelry model; the modeling request carries jewelry attributes and jewelry features subordinate to each jewelry attribute.

Model generation module 720 for generating a corresponding jewelry model based on the jewelry attributes and jewelry characteristics.

Model detection module 730 for detecting whether the jewelry model supports production.

The model sending module 740 is configured to send the jewelry model to the client for display if it is confirmed that the jewelry model supports production.

In one embodiment, the jewelry features include a first jewelry feature and a second jewelry feature; the first jewelry feature comprises: the jewelry attribute is the jewelry characteristic of metal, color forming and ornament category; the second jewelry feature comprises: the jewelry attribute is at least one of the types of precious stones and jewelry characteristics subordinate to the jewelry technological characteristics; the model generation module is also used for generating an initial jewelry model according to the first jewelry characteristics; acquiring a location tag of the second jewelry feature in the initial jewelry model; and correcting the initial jewelry model according to the second jewelry feature and the corresponding position label thereof, and generating a corresponding jewelry model.

In one embodiment, the model generation module is further configured to query a pre-constructed list of location tags based on the second jewelry feature and/or the initial jewelry model; the position label table records position labels of the second jewelry feature in a plurality of jewelry models; the position tags of the second jewelry feature in the initial jewelry model are obtained from a position tag table.

In one embodiment, the jewelry model generation apparatus further comprises a position tag table generation module for obtaining a plurality of jewelry model samples; statistics of the location data of the second jewelry feature in the plurality of jewelry model samples; generating position labels of the second jewelry feature in different jewelry models according to the position data obtained through statistics; a position tag table is generated based on position tags of the second jewelry feature in different jewelry models.

In one embodiment, the jewelry model generating apparatus further includes an identification code generating module, configured to determine codes corresponding to respective jewelry features according to the jewelry attributes and the jewelry features after the corresponding jewelry model is generated according to the jewelry attributes and the jewelry features, and query a corresponding relation between the preset jewelry features and the codes according to the jewelry features; and combining the codes corresponding to the jewelry characteristics according to a preset sequence to generate jewelry identification codes corresponding to the jewelry models.

In one embodiment, the jewelry model generation apparatus further comprises a code configuration module for acquiring a plurality of jewelry attributes and a plurality of jewelry features corresponding to each jewelry attribute; configuring corresponding codes for each jewelry feature; and determining the corresponding relation between the jewelry characteristics and the codes according to the codes corresponding to the jewelry characteristics after configuration, and taking the corresponding relation as the corresponding relation between the jewelry characteristics and the codes.

In one embodiment, each jewelry attribute comprises: metal, color, precious stone type, ornament craft feature, ornament number; the ornaments are characterized in that: color, basic features, topographical features, manufacturing processes, and pattern features;

the code configuration module is further configured to: a method for configuring corresponding codes for jewelry features of metals and color-forming genera, comprising:

the necklace, the bracelet, the foot chain, the ear nail, the earring, the pendant, the ring, the bracelet, the hanging ornament, the gold bar, the souvenir badge and the brooch are respectively provided with corresponding codes;

In one embodiment, the model detection module is further configured to confirm that the jewelry model supports production if the jewelry identification code matches a known jewelry identification code; if the jewelry identification code is not matched with the known jewelry identification code, confirming that the jewelry model does not support production; wherein jewelry identification codes are known for identifying jewelry models that support production.

In one embodiment, the model detection module is further configured to obtain an accuracy value of a second jewelry feature in the jewelry model; if the precision values of the second jewelry feature of the jewelry model all meet the corresponding setting conditions, confirming that the jewelry model supports production; if the accuracy value of a second jewelry feature of the jewelry model does not meet the corresponding set condition, confirming that the jewelry model does not support production.

In one embodiment, the jewelry model generating apparatus further includes a reminder sending module for generating jewelry adjustment reminders and sending the jewelry adjustment reminders to the client after the model detection module confirms that the jewelry model does not support production.

In one embodiment, the jewelry model generating apparatus further comprises a quotation information generating module for receiving confirmation information of the jewelry model sent by the client; the confirmation information comprises parameter information of the jewelry model; calculating a cost prediction value of the jewelry model according to the parameter information and a preset cost calculation model; and generating jewelry quotation information according to the jewelry model, the parameter information and the cost predicted value, and sending the jewelry quotation information to the client.

In one embodiment, the offer information generation module is further configured to obtain a cost calculation model corresponding to the jewelry model; the cost calculation model includes a plurality of cost items; calculating a cost prediction value corresponding to each cost item according to the parameter information; and obtaining the sum of the cost predicted values corresponding to the cost projects as the cost predicted value of the jewelry model.

In one embodiment, the jewelry model generating apparatus further comprises a production order generating module for receiving jewelry order information from the client after the quotation information generating module transmits jewelry quotation information to the client; and generating a jewelry production order according to the jewelry order information, and sending the jewelry production order to a corresponding production client.

According to the above embodiments, the jewelry model generating device achieves the purpose of automatically generating the corresponding jewelry model according to the jewelry characteristics, without manual design and modeling, simplifies the jewelry model generating process, improves the jewelry model generating efficiency, and overcomes the defect that the jewelry model generating in the prior art needs manual modeling according to the jewelry design drawing, which results in complicated process; meanwhile, the jewelry model is detected, whether the generated jewelry model supports production or not can be confirmed, and the effectiveness of the generated jewelry model is ensured.

For specific limitations on the means for generating the jewelry model, reference may be made to the limitations of the method for generating the jewelry model hereinabove, and will not be described in detail herein. The various modules in the jewelry model generation set described above may be implemented in whole or in part in software, hardware, and combinations thereof. The above modules may be embedded in hardware or may be independent of a processor in the computer device, or may be stored in software in a memory in the computer device, so that the processor may call and execute operations corresponding to the above modules.

In one embodiment, a computer device is provided, which may be a server, and the internal structure of which may be as shown in fig. 8. The computer device includes a processor, a memory, a network interface, and a database connected by a system bus. Wherein the processor of the computer device is configured to provide computing and control capabilities. The memory of the computer device includes a non-volatile storage medium and an internal memory. The non-volatile storage medium stores an operating system, computer programs, and a database. The internal memory provides an environment for the operation of the operating system and computer programs in the non-volatile storage media. The database of computer devices is used to store a location tag of the second jewelry feature in the initial jewelry model. The network interface of the computer device is used for communicating with an external terminal through a network connection. The computer program is executed by a processor to implement a method of generating a jewelry model.

It will be appreciated by those skilled in the art that the structure shown in fig. 8 is merely a block diagram of some of the structures associated with the present application and is not limiting of the computer device to which the present application may be applied, and that a particular computer device may include more or fewer components than shown, or may combine certain components, or have a different arrangement of components.

In one embodiment, a computer device is provided comprising a memory storing a computer program and a processor that when executing the computer program performs the steps of:

receiving a modeling request from a client for obtaining a jewelry model; the modeling request carries jewelry attributes and jewelry features subordinate to the jewelry attributes;

detecting whether the jewelry model supports production;

and if the jewelry model is confirmed to support production, sending the jewelry model to a client for display.

In one embodiment, a computer readable storage medium is provided having a computer program stored thereon, which when executed by a processor, performs the steps of:

detecting whether the jewelry model supports production;

Those skilled in the art will appreciate that implementing all or part of the above described methods may be accomplished by way of a computer program stored on a non-transitory computer readable storage medium, which when executed, may comprise the steps of the embodiments of the methods described above. Any reference to memory, storage, database, or other medium used in the various embodiments provided herein may include non-volatile and/or volatile memory. The nonvolatile memory can include Read Only Memory (ROM), programmable ROM (PROM), electrically Programmable ROM (EPROM), electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), dynamic RAM (DRAM), synchronous DRAM (SDRAM), double Data Rate SDRAM (DDRSDRAM), enhanced SDRAM (ESDRAM), synchronous Link DRAM (SLDRAM), memory bus direct RAM (RDRAM), direct memory bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM), among others.

The technical features of the above embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above examples merely represent a few embodiments of the present application, which are described in more detail and are not to be construed as limiting the scope of the invention. It should be noted that it would be apparent to those skilled in the art that various modifications and improvements could be made without departing from the spirit of the present application, which would be within the scope of the present application. Accordingly, the scope of protection of the present application is to be determined by the claims appended hereto.

Claims

1. A method of generating a jewelry model, the method comprising:

receiving a modeling request from a client for obtaining a jewelry model; the modeling request carries jewelry attributes and jewelry features subordinate to each jewelry attribute; the jewelry features include a first jewelry feature and a second jewelry feature; the first jewelry feature comprises: the jewelry attribute is at least one of the jewelry characteristics of metal, color forming and jewelry category; the second jewelry feature comprises: the jewelry attribute is at least one of the types of precious stones and jewelry characteristics subordinate to the jewelry technological characteristics;

detecting whether the jewelry model supports production;

if the jewelry model is confirmed to support production, the jewelry model is sent to the client for display;

the generating a corresponding jewelry model according to the jewelry attributes and the jewelry characteristics comprises the following steps:

generating an initial jewelry model according to the first jewelry feature;

querying a pre-constructed position tag table according to the second jewelry feature and/or the initial jewelry model; the position label table records position labels of the second jewelry feature in a plurality of jewelry models;

obtaining a location tag of the second jewelry feature in the initial jewelry model from the location tag table;

and correcting the initial jewelry model according to the second jewelry feature and the corresponding position label thereof, and generating a corresponding jewelry model.

2. The method of claim 1, wherein the location tag table is obtained by:

obtaining a plurality of jewelry model samples;

statistics of the location data of the second jewelry feature in the plurality of jewelry model samples;

Generating position labels of the second jewelry feature in different jewelry models according to the position data obtained through statistics;

generating the position label list according to the position labels of the second jewelry feature in different jewelry models.

3. The method of claim 1, further comprising, after generating the corresponding jewelry model:

inquiring the corresponding relation between preset jewelry characteristics and codes according to the jewelry characteristics, and determining the codes corresponding to the jewelry characteristics;

and combining the codes corresponding to the jewelry characteristics according to a preset sequence to generate jewelry identification codes corresponding to the jewelry models.

4. A method according to claim 3, wherein the correspondence of the pre-set jewelry feature to the code is obtained by:

acquiring a plurality of jewelry attributes and a plurality of jewelry features corresponding to the jewelry attributes;

configuring corresponding codes for each jewelry feature;

and determining the corresponding relation between the jewelry characteristics and the codes according to the codes corresponding to the jewelry characteristics after configuration, and taking the corresponding relation as the corresponding relation between the jewelry characteristics and the codes.

5. The method of claim 4, wherein each of the jewelry attributes comprises: metal, color, precious stone type, ornament craft feature, ornament number; the ornaments technical characteristics include: color, basic features, topographical features, manufacturing processes, and pattern features;

Said configuring a corresponding code for each of said jewelry features comprising:

coding corresponding to child clothes, men's clothes, women's clothes and neutral configuration respectively;

And respectively configuring corresponding codes for lines, figures, numbers, english and cross shapes.

6. A method according to claim 3, wherein said detecting whether said jewelry model supports production comprises:

if the jewelry identification code is matched with the known jewelry identification code, confirming that the jewelry model supports production;

if the jewelry identification code does not match the known jewelry identification code, confirming that the jewelry model does not support production; wherein the known jewelry identification code is used to identify a jewelry model that supports production;

and/or the number of the groups of groups,

acquiring an accuracy value of a second jewelry feature in the jewelry model;

if the precision values of the second jewelry feature of the jewelry model all meet the corresponding setting conditions, confirming that the jewelry model supports production;

and if the precision value of one second jewelry feature of the jewelry model does not meet the corresponding setting condition, confirming that the jewelry model does not support production.

7. The method of claim 6, further comprising, after confirming that the jewelry model does not support production:

generating jewelry adjustment reminding information and sending the jewelry adjustment reminding information to the client.

8. The method according to any one of claims 1 to 7, further comprising:

receiving confirmation information sent by the client for the jewelry model; the confirmation information comprises parameter information of the jewelry model;

calculating a cost prediction value of the jewelry model according to the parameter information and a preset cost calculation model;

and generating jewelry quotation information according to the jewelry model, the parameter information and the cost predicted value, and sending the jewelry quotation information to the client.

9. The method of claim 8, wherein said calculating a cost prediction value for said jewelry model based on said parameter information and a preset cost calculation model comprises:

acquiring a cost calculation model corresponding to the jewelry model; the cost calculation model includes a plurality of cost items;

calculating a cost prediction value corresponding to each cost item according to the parameter information;

and obtaining the sum of the cost predicted values corresponding to the cost items as the cost predicted value of the jewelry model.

10. The method of claim 8, further comprising, after sending the jewelry offer information to the client:

Receiving jewelry order information from the client;

and generating a jewelry production order according to the jewelry order information, and sending the jewelry production order to a corresponding production client.

11. A method of generating a jewelry model, the method comprising:

detecting an operation event for building a jewelry model, and sending a modeling request to a server; the modeling request carries jewelry attributes selected by the operation event and jewelry characteristics subordinate to each jewelry attribute; the jewelry features include a first jewelry feature and a second jewelry feature; the first jewelry feature comprises: the jewelry attribute is at least one of the jewelry characteristics of metal, color forming and jewelry category; the second jewelry feature comprises: the jewelry attribute is at least one of the types of precious stones and jewelry characteristics subordinate to the jewelry technological characteristics;

displaying the jewelry model;

the jewelry model is generated from the jewelry attributes and the jewelry characteristics, comprising:

Generating an initial jewelry model according to the first jewelry feature;

12. The method of claim 11, wherein the method further comprises:

detecting a conversion operation event for converting the displayed jewelry model, and sending a model conversion request to a server; the model conversion request carries the model conversion type selected by the conversion operation event;

receiving a dynamic jewelry model sent by the server; the dynamic jewelry model is a jewelry model converted by the server based on a dynamic rendering file corresponding to the model conversion type;

the dynamic jewelry model is displayed.

13. The method of claim 11, wherein the method further comprises:

Detecting an adjustment operation event for adjusting the displayed jewelry model, and sending a model adjustment request to a server; the model adjustment request carries adjustment operation information corresponding to the adjustment operation event;

receiving the adjusted jewelry model sent by the server; the adjusted jewelry model is a jewelry model adjusted by the server based on the adjustment operation information;

displaying the adjusted jewelry model.

14. A jewelry model generation apparatus, the apparatus comprising:

a request receiving module for receiving a modeling request from a client for obtaining a jewelry model; the modeling request carries jewelry attributes and jewelry features subordinate to each jewelry attribute; the jewelry features include a first jewelry feature and a second jewelry feature; the first jewelry feature comprises: the jewelry attribute is at least one of the jewelry characteristics of metal, color forming and jewelry category; the second jewelry feature comprises: the jewelry attribute is at least one of the types of precious stones and jewelry characteristics subordinate to the jewelry technological characteristics;

the model sending module is used for sending the jewelry model to the client for display if the jewelry model is confirmed to support production;

the model generation module is specifically configured to:

generating an initial jewelry model according to the first jewelry feature;

15. A computer device comprising a memory and a processor, the memory storing a computer program, characterized in that the processor implements the steps of the method of any one of claims 1 to 13 when the computer program is executed.

16. A computer readable storage medium, on which a computer program is stored, characterized in that the computer program, when being executed by a processor, implements the steps of the method of any of claims 1 to 13.