CN110533510B - Three-dimensional modeling method, three-dimensional modeling system, three-dimensional modeling device, and storage medium - Google Patents

Abstract

The application relates to a three-dimensional modeling method, a three-dimensional modeling device, equipment and a storage medium, wherein the method comprises the following steps: the order receiving module acquires and stores the currently received order task; the warehousing management module records warehousing related elements corresponding to the order tasks; the data acquisition module acquires three-dimensional model construction data of a sample, and issues a drawing command and a mold blank manufacturing command after the three-dimensional model construction data are acquired; the mould blank manufacturing module is used for manufacturing and generating a mould blank corresponding to the sample according to the three-dimensional model construction data; the art designing drawing module carries out picture making according to the order information to obtain a picture of an object to be modeled, and after the picture is stored, a model making command is issued to the model making module; and the model making module distributes the model making tasks to corresponding task groups to make the three-dimensional model according to the pictures, the mould blanks and the difficulty degree of the order task. The method realizes the automatic circulation of each flow in the three-dimensional modeling process, and effectively improves the three-dimensional modeling efficiency.

Description

Three-dimensional modeling method, three-dimensional modeling system, three-dimensional modeling device, and storage medium

Technical Field

The present disclosure relates to the field of three-dimensional modeling technologies, and in particular, to a three-dimensional modeling method, a three-dimensional modeling system, a three-dimensional modeling apparatus, and a storage medium.

Background

In the manual three-dimensional modeling method, a three-dimensional model needs to be built from scratch according to different types aiming at different objects, and the process is relatively simple for some simple objects consisting of basic circles, rectangles and trapezoids. But for most objects the process is very complex. Besides some basic structural modeling, the arc, angle and other places need to be refined. In addition, after the three-dimensional model structure is constructed, mapping processing is required to be carried out on the three-dimensional model structure, and the requirements on precision and vision of the application level can be met. In order to ensure higher precision and visual effect, the requirement on the technical level of modeling personnel is high, and the manufacturing period of a single model is longer, so that the efficiency of the manual three-dimensional modeling method is lower, and the explosive application of AR/VR in various industries is difficult to support.

Disclosure of Invention

In view of this, the present disclosure provides a three-dimensional modeling method, including:

the order receiving module acquires and stores the currently received order task; the order task comprises order information input by a user; the order information comprises at least one of an order number, a name of an object to be modeled, an order date, a color of the object to be modeled, a texture of the object to be modeled and sample information corresponding to the object to be modeled;

after receiving the sample of the object to be modeled and recording the storage related elements corresponding to the order task, the storage management module issues a data acquisition command to the data acquisition module; wherein the warehousing-related factors include at least one of a time of receipt of the sample, a time of transmission of the sample, a state at the time of receipt of the sample;

the data acquisition module acquires three-dimensional model construction data of the sample after receiving the data acquisition command, issues a drawing command to an art drawing module after the three-dimensional model construction data is acquired, and issues a mold blank manufacturing command to a mold blank manufacturing module; wherein the three-dimensional model construction data includes at least one of a six-view of the sample, a dimensional parameter of the sample, a shape of the sample, and a structure of the sample;

after the mould blank manufacturing module receives the mould blank manufacturing command, manufacturing and generating a mould blank corresponding to the sample according to the three-dimensional model construction data;

after receiving the drawing command, the art designing drawing module makes pictures according to the order information to obtain pictures of the object to be modeled, stores the pictures and then issues a modeling command to a modeling module;

and after receiving the model making command, the model making module allocates a model making task to a corresponding task group to make a three-dimensional model according to the picture, the mould blank and the difficulty degree of the order task.

In a possible implementation manner, when the warehousing management module records the warehousing related elements corresponding to the order task, the warehousing management module further includes:

acquiring order information corresponding to the order task according to the triggered order confirmation button;

and acquiring the sample state information list, and selecting the corresponding state of the sample when received from the sample state information list for recording.

In one possible implementation manner, the method further includes:

after the three-dimensional model is manufactured, obtaining and recording model elements of the three-dimensional model;

wherein the model element includes at least one of a size parameter of the three-dimensional model, a number of pictures required to construct the three-dimensional model, and picture information.

In one possible implementation manner, the method further includes:

when the three-dimensional model has an interactive production requirement, issuing an interactive design task instruction to an interactive production module;

and the interactive manufacturing module pushes and displays the requirements of the interactive design task after receiving the interactive design task, acquires the design document of the interactive design task after the interactive design task is completed, and records the interactive design elements.

According to one aspect of the application, the three-dimensional modeling device comprises an order receiving module, a warehousing management module, a data acquisition module, a mold blank manufacturing module, an art designing and drawing module and a model manufacturing module;

the order receiving module is configured to acquire and store a currently received order task; the order task comprises order information input by a user; the order information comprises at least one of an order number, a name of an object to be modeled, an order date, a color of the object to be modeled, a texture of the object to be modeled and sample information corresponding to the object to be modeled;

the storage management module is configured to receive the samples of the objects to be modeled, record storage related elements corresponding to the order tasks and issue data acquisition commands to the data acquisition module; wherein the warehousing-related factors include at least one of a time of receipt of the sample, a time of transmission of the sample, a state at the time of receipt of the sample;

the data acquisition module acquires three-dimensional model construction data of the sample after receiving the data acquisition command, issues a drawing command to the art designing drawing module after the three-dimensional model construction data is acquired, and issues a mold blank manufacturing command to the mold blank manufacturing module; wherein the three-dimensional model construction data includes at least one of a six-view of the sample, a dimensional parameter of the sample, a shape of the sample, and a structure of the sample;

after the mould blank manufacturing module receives the mould blank manufacturing command, manufacturing and generating a mould blank corresponding to the sample according to the three-dimensional model construction data;

after receiving the drawing command, the art designing drawing module makes pictures according to the order information to obtain pictures of the object to be modeled, stores the pictures and then issues a modeling command to the modeling module;

and after receiving the model making command, the model making module allocates a model making task to a corresponding task group to make a three-dimensional model according to the picture, the mould blank and the difficulty degree of the order task.

In one possible implementation manner, the warehouse management module includes an order information obtaining sub-module and a list selecting sub-module:

the order information acquisition sub-module is configured to acquire order information corresponding to the order task according to the triggered order confirmation button;

the list selection submodule is configured to acquire the sample state information list, and select a corresponding state when the sample is received from the sample state information list to record.

In one possible implementation, the model making module includes a model element recording sub-module:

the model element recording submodule is configured to acquire and record the model elements of the three-dimensional model after the three-dimensional model is manufactured;

wherein the model element includes at least one of a size parameter of the three-dimensional model, a number of pictures required to construct the three-dimensional model, and picture information.

In a possible implementation manner, the method further includes an interactive production sub-module:

the model making module also comprises a task issuing sub-module;

the task issuing sub-module is configured to issue an interactive design task instruction to the interactive production module when the three-dimensional model has an interactive production requirement;

and the interactive manufacturing module pushes and displays the requirements of the interactive design task after receiving the interactive design task, acquires the design document of the interactive design task after the interactive design task is finished, and records interactive design elements.

According to another aspect of the present application, there is also provided a three-dimensional modeling apparatus including:

a processor;

a memory for storing processor-executable instructions;

wherein the processor is configured to execute the executable instructions to implement any of the methods described above.

According to another aspect of the present application, there is also provided a non-transitory computer readable storage medium having stored thereon computer program instructions which, when executed by a processor, implement the method of any of the preceding.

According to the three-dimensional modeling method, the order receiving module, the storage management module, the data acquisition module, the art designing drawing module, the die blank manufacturing module, the model manufacturing module and other application modules are arranged, so that automatic circulation of all processes in the three-dimensional modeling process is achieved, and the three-dimensional modeling efficiency is effectively improved. By arranging the application modules, the whole-flow management is implemented on the three-dimensional modeling process, the functions of reminding, inquiring, managing, informing and the like of orders are realized from the time of receiving the orders, different labor division is carried out on each modeling step, corresponding personnel are configured for each modeling step to carry out processing, and timely informing and feedback of tasks are realized, so that each processing link in the modeling process can be naturally linked.

Other features and aspects of the present disclosure will become apparent from the following detailed description of exemplary embodiments, which proceeds with reference to the accompanying drawings.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate exemplary embodiments, features, and aspects of the disclosure and, together with the description, serve to explain the principles of the disclosure.

FIG. 1 shows a flow diagram of a three-dimensional modeling method of an embodiment of the present application;

FIG. 2 shows a block diagram of a three-dimensional modeling apparatus of an embodiment of the present application;

fig. 3 shows a block diagram of a three-dimensional modeling apparatus according to an embodiment of the present application.

Detailed Description

Various exemplary embodiments, features and aspects of the present disclosure will be described in detail below with reference to the accompanying drawings. In the drawings, like reference numbers can indicate functionally identical or similar elements. While the various aspects of the embodiments are presented in drawings, the drawings are not necessarily drawn to scale unless specifically indicated.

The word "exemplary" is used exclusively herein to mean "serving as an example, embodiment, or illustration. Any embodiment described herein as "exemplary" is not necessarily to be construed as preferred or advantageous over other embodiments.

Furthermore, in the following detailed description, numerous specific details are set forth in order to provide a better understanding of the present disclosure. It will be understood by those skilled in the art that the present disclosure may be practiced without some of these specific details. In some instances, methods, means, elements and circuits that are well known to those skilled in the art have not been described in detail so as not to obscure the present disclosure.

Fig. 1 shows a flowchart of a three-dimensional modeling method of an embodiment of the present application. Fig. 2 shows a block diagram of the three-dimensional modeling apparatus 100 according to the embodiment of the present application. Referring to fig. 1 and 2, in the three-dimensional modeling method according to the embodiment of the present application, first, step S100 is included, and the order receiving module 110 obtains and stores a currently received order task. It should be noted that the order task includes order information input by the user. Here, it should be noted that the order information includes at least one of an order number, a name of the object to be modeled, an order date, a color of the object to be modeled, a texture of the object to be modeled, and sample information corresponding to the object to be modeled.

Then, in step S200, after receiving the sample of the object to be modeled, the warehousing management module 120 records the corresponding warehousing related elements corresponding to the order task, and issues a data acquisition command to the data acquisition module 130. Here, it should be noted that, when the warehousing management module 120 records the warehousing related elements corresponding to the order task after receiving the samples of the object to be modeled, the warehousing related elements may include at least one of the receiving time of the samples, the sending time of the samples, and the state of the samples when the samples are received.

Further, step S300 is executed, and after receiving the data acquisition command, the data acquisition module 130 acquires three-dimensional model building data of the sample, and issues the acquired three-dimensional model building data to the mold blank making module 140. Here, it will be understood by those skilled in the art that the three-dimensional model building data acquired by the data acquisition module 130 at the time of data acquisition may include at least one of six views of the sample, a size parameter of the sample, a shape of the sample, and a structure of the sample. That is, the three-dimensional model building data collected by the data collecting module 130 is various data required for building the three-dimensional model, including but not limited to the above mentioned data.

Then, in step S400, after receiving the three-dimensional model building data, the mold blank making module 140 makes and generates a mold blank corresponding to the sample according to the three-dimensional model building data, and issues a drawing command to the design drawing module 150. Subsequently, step S500 is executed again, after the art designing drawing module 150 receives the drawing command, the image making is performed according to the order information, the image of the object to be modeled is obtained, and after the obtained image is stored, the modeling command is issued to the modeling module 160.

Finally, in step S600, after the model making module 160 receives the model making command, the model making task is assigned to the corresponding task group to make the three-dimensional model according to the picture uploaded by the design drawing module 150, the model blank uploaded by the model blank making module 140, and the difficulty level of the order task.

It should be noted that, in the three-dimensional modeling method according to the embodiment of the present application, when the corresponding data obtained by the modules (for example, the order information corresponding to the order task obtained by the order receiving module 110, the warehousing related elements recorded by the warehousing management module 120, the three-dimensional model building data collected by the data collecting module 130, the mold blank generated by the mold blank generating module 140, and the image of the object to be modeled obtained by the art drawing module 150) are respectively stored in the corresponding databases, the corresponding data may also be simultaneously uploaded to a shared memory (for example, a cloud disk) for backup, so that each item of data can be read at any time.

Therefore, according to the three-dimensional modeling method provided by the embodiment of the application, by arranging a plurality of application modules such as the order receiving module 110, the warehousing management module 120, the data acquisition module 130, the art designing drawing module 150, the mold blank manufacturing module 140 and the model manufacturing module 160, automatic circulation of each process in the three-dimensional modeling process is realized, and the three-dimensional modeling efficiency is effectively improved. By setting the application modules, the full-flow management is implemented on the three-dimensional modeling process, the functions of reminding, inquiring, managing, notifying and the like of the order are realized from the time of receiving the order, different labor division is carried out on each modeling step, corresponding personnel are configured for each modeling step to process, the timely notification and feedback of tasks are realized, and therefore all processing links in the modeling process can be naturally connected.

In addition, in the three-dimensional modeling method according to the embodiment of the present application, the data acquisition module 130 and the mold blank manufacturing module 140 are further configured to automatically acquire data and automatically manufacture a mold blank. That is, the data acquisition module 130 and the mold blank manufacturing module 140 are provided to replace the manual modeling method in which the data acquisition and the mold blank manufacturing are performed manually, which further improves the efficiency of three-dimensional modeling. In addition, the automatic data acquisition of the data acquisition module 130 and the automatic mold blank manufacturing of the mold blank manufacturing module 140 enable the data acquisition to be more accurate, effectively improve the standardization and high quality of mold blank manufacturing, and further lay a good foundation for building a more accurate three-dimensional model.

In a possible implementation manner, in order to facilitate obtaining order information and simplify a data reading process, in the three-dimensional modeling method according to the embodiment of the present application, when the warehousing management module 120 records warehousing related elements corresponding to order tasks, the method may further include the following steps:

and acquiring order information corresponding to the order task according to the triggered order confirmation button. Meanwhile, a sample state information list can be obtained, and the corresponding sample receiving state is selected from the sample state information list for recording.

That is, after receiving the sample of the object to be modeled, the warehousing department fills the receiving/sending time of the received sample of the object to be modeled, the receiving state of the sample, and the like in the database corresponding to the warehousing management module 120, corresponding to the order task of the object to be modeled, through the warehousing management module 120.

When the filling records of the warehousing related elements are carried out, the automatic filling of the related information can be realized by clicking a confirmation receiving or confirmation sending button of the corresponding order. That is, by providing a confirmation reception button and a confirmation transmission button in the warehouse management module 120, the confirmation reception button and the confirmation transmission button are automatically linked with the database in the order reception module 110. When the receiving confirmation button or the sending confirmation button is triggered, the information is automatically linked to the database in the order receiving module 110, and after corresponding information is acquired from the database of the order receiving module 110, the acquired information is automatically recorded to a corresponding position of the warehousing management module 120.

Meanwhile, when the filling record of the state when the sample is received is carried out, the selection of different states can be carried out in a list mode. That is, when the filling of the item of the state when the sample is received needs to be recorded, the filling box of the item is clicked, and when the filling box of the item is triggered, the selection items in various states (such as complete sample, incomplete sample, damaged sample and the like) are automatically pushed out in a pull-down list mode. The operator can register the state of the sample by only selecting corresponding state information from the drop-down list.

It should be noted that, in the three-dimensional modeling method according to the embodiment of the present application, when the order receiving module 110 receives the order task and records the order information corresponding to the order task, an order management interface may be set in the order receiving module 110, so that when relevant people record the order information, they can register various information according to various directions in the order management interface. Meanwhile, in the three-dimensional modeling method according to the embodiment of the present application, the order receiving module 110 is provided with a copy button, a paste button, and the like to support the copying and pasting of the order contents. Meanwhile, in a possible implementation manner, the order receiving module 110 is further configured with an add button, a delete button, a modify button, a view button, and the like, so as to implement operations of adding, deleting, modifying, and viewing various items of information in the order information.

In addition, after the warehousing management module 120 finishes registering the warehousing related elements, a data acquisition command can be issued to the data acquisition module 130. The data acquisition module 130 acquires various data after receiving the data acquisition command. And after the data acquisition is completed, storing the acquired various data (i.e., the three-dimensional model construction data). Meanwhile, a mold blank making command is issued to the mold blank making module 140, and a drawing command is issued to the design drawing module 150, so as to achieve the purpose of automatically informing the design drawing module 150 to make pictures and automatically informing the mold blank making module 140 to make mold blanks.

After receiving the mold making command, the mold making module 140 obtains the data collected by the data collecting module 130 to make the mold, and obtains and stores the corresponding mold to be used as a reference and a basis for making a subsequent model.

After receiving the drawing command, the art designing drawing module 150 obtains the order information recorded in the order receiving module 110, manufactures the pictures according to the order information, obtains the pictures required for building the three-dimensional model, stores the obtained pictures (which may be multiple pictures), and then issues the model manufacturing command to the model manufacturing module 160, so as to automatically notify the model manufacturing module 160 of the purpose of manufacturing the model.

After receiving the model making command, the model making module 160 assigns a model making task according to the difficulty level of the image, the mold blank and the order task, and allocates the model making task to a corresponding task group to make the three-dimensional model.

After the model making module 160 allocates the model making task to the corresponding task group to make the three-dimensional model, the personnel in the task group receiving the task make the three-dimensional model based on the made mold blank, and after the three-dimensional model is made, register and fill the corresponding model making elements, so that the model making module 160 obtains and records the model elements of the three-dimensional model. Here, it will be understood by those skilled in the art that the model elements of the three-dimensional model may include size parameters of the three-dimensional model, the number of pictures required to construct the three-dimensional model, picture information, and the like. Here, no specific limitation is imposed.

Further, after the model making module 160 fills in the model elements after the model making is completed, in order to make the three-dimensional model constructed by the three-dimensional modeling method of the embodiment of the present application have higher accuracy and better quality, in a possible implementation manner, a step of issuing an interactive design task instruction to the interactive making module 170 may be further included when the three-dimensional model has an interactive making requirement.

That is, when the three-dimensional model has the requirement of interactive production, the interactive design task instruction is issued to the interactive production module 170. After receiving the interactive design task, the interactive production module 170 pushes and displays the requirements of the interactive design task, and after the interactive design task is completed, obtains the design document of the interactive design task and records the interactive design elements. Here, it is to be noted that the interactive design element may include an execution flow of the interactive design task.

Therefore, according to the three-dimensional modeling method provided by the embodiment of the application, automatic modeling and manual modeling processes are fused, and automatic order management is realized by arranging the order receiving module 110, the warehousing management module 120, the data acquisition module 130, the mold blank manufacturing module 140, the art designing drawing module 150, the model manufacturing module 160 and other application modules, so that seamless connection of modeling steps of three-dimensional modeling is realized through cooperation among the application modules, technical requirements on technicians are reduced, workload of a manual modeling part is reduced, effective operation time of operators is fully utilized, and production efficiency of three-dimensional modeling is improved.

Accordingly, based on any one of the three-dimensional modeling methods described above, the present application also provides a three-dimensional modeling apparatus 100. Since the working principle of the three-dimensional modeling apparatus 100 provided by the present application is the same as or similar to that of the three-dimensional modeling method provided by the present application, repeated descriptions are omitted.

Referring to fig. 2, the three-dimensional modeling apparatus 100 provided by the present application includes an order receiving module 110, a warehouse management module 120, a data acquisition module 130, a mold blank manufacturing module 140, an art drawing module 150, and a model manufacturing module 160.

The order receiving module 110 is configured to acquire and store a currently received order task; the order task comprises order information input by a user; the order information comprises at least one of an order number, a name of an object to be modeled, an order date, a color of the object to be modeled, a texture of the object to be modeled and sample information corresponding to the object to be modeled;

the warehousing management module 120 is configured to receive the sample of the object to be modeled, record warehousing related elements corresponding to the order task, and issue a data acquisition command to the data acquisition module 130; wherein the warehousing-related factors include at least one of a time of receipt of the sample, a time of transmission of the sample, a state at the time of receipt of the sample;

the data acquisition module 130 acquires the three-dimensional model construction data of the sample after receiving the data acquisition command, issues a drawing command to the art drawing module 150 after the three-dimensional model construction data is acquired, and issues a mold blank manufacturing command to the mold blank manufacturing module 140; wherein the three-dimensional model construction data includes at least one of a six-view of the sample, a dimensional parameter of the sample, a shape of the sample, and a structure of the sample;

after receiving the mold making command, the mold making module 140 makes and generates a mold corresponding to the sample according to the three-dimensional model building data;

after receiving the drawing command, the art designing drawing module 150 makes a picture according to the order information to obtain a picture of the object to be modeled, stores the picture, and issues a modeling command to the modeling module 160;

after receiving the model making command, the model making module 160 allocates a model making task to a corresponding task group for making a three-dimensional model according to the picture, the mold blank and the difficulty level of the order task.

In one possible implementation, the warehouse management module 120 includes an order information obtaining sub-module and a list selecting sub-module:

the order information acquisition sub-module is configured to acquire order information corresponding to the order task according to the triggered order confirmation button;

the list selection submodule is configured to acquire the sample state information list, and select a corresponding state when the sample is received from the sample state information list to record.

In one possible implementation, the model making module 160 includes a model element record sub-module:

the model element recording submodule is configured to acquire and record the model elements of the three-dimensional model after the three-dimensional model is manufactured;

wherein the model element includes at least one of a size parameter of the three-dimensional model, a number of pictures required to construct the three-dimensional model, and picture information.

In a possible implementation manner, the method further includes an interactive production sub-module:

the model making module 160 further comprises a task issuing sub-module;

the task issuing sub-module is configured to issue an interactive design task instruction to the interactive production module 170 when the three-dimensional model has an interactive production requirement;

after receiving the interactive design task, the interactive production module 170 pushes and displays the requirements of the interactive design task, and after the interactive design task is completed, obtains the design document of the interactive design task and records the interactive design elements.

It should be noted that, although the three-dimensional modeling apparatus of the present application is described by taking the embodiment shown in fig. 2 as an example, those skilled in the art will understand that the present disclosure should not be limited thereto. In fact, the user can flexibly set the system architecture of the three-dimensional modeling device according to personal preference and/or practical application scenes, as long as the purpose of fusing the automatic modeling process and the manual modeling process can be achieved.

Still further, according to another aspect of the present disclosure, there is also provided a three-dimensional modeling apparatus 200. Referring to fig. 3, the three-dimensional modeling apparatus 200 of the embodiment of the present disclosure includes a processor 210 and a memory 220 for storing instructions executable by the processor 210. Wherein the processor 210 is configured to implement any of the three-dimensional modeling methods described above when executing the executable instructions.

Here, it should be noted that the number of the processors 210 may be one or more. Meanwhile, in the three-dimensional modeling apparatus 200 of the embodiment of the present disclosure, an input device 230 and an output device 240 may also be included. The processor 210, the memory 220, the input device 230, and the output device 240 may be connected via a bus, or may be connected via other methods, which is not limited in detail herein.

The memory 220, which is a computer-readable storage medium, may be used to store software programs, computer-executable programs, and various modules, such as: the disclosed three-dimensional modeling method is a program or a module corresponding to the disclosed three-dimensional modeling method. The processor 210 executes various functional applications and data processing of the three-dimensional modeling apparatus 200 by executing software programs or modules stored in the memory 220.

The input device 230 may be used to receive an input number or signal. Wherein the signal may be a key signal generated in connection with user settings and function control of the device/terminal/server. The output device 240 may include a display device such as a display screen.

According to another aspect of the present disclosure, there is also provided a non-transitory computer readable storage medium having stored thereon computer program instructions which, when executed by the processor 210, implement any of the three-dimensional modeling methods described above.

Having described embodiments of the present disclosure, the foregoing description is intended to be exemplary, not exhaustive, and not limited to the disclosed embodiments. Many modifications and variations will be apparent to those of ordinary skill in the art without departing from the scope and spirit of the described embodiments. The terms used herein were chosen in order to best explain the principles of the embodiments, the practical application, or technical improvements to the techniques in the marketplace, or to enable others of ordinary skill in the art to understand the embodiments disclosed herein.

Claims (8)

1. A three-dimensional modeling method, comprising:

the order receiving module acquires and stores the currently received order task; the order task comprises order information input by a user; the order information comprises at least one of an order number, a name of an object to be modeled, an order date, a color of the object to be modeled, a texture of the object to be modeled and sample information corresponding to the object to be modeled;

after receiving the sample of the object to be modeled and recording the storage related elements corresponding to the order task, the storage management module issues a data acquisition command to the data acquisition module; wherein the warehousing-related factors include at least one of a time of receipt of the sample, a time of transmission of the sample, a state at the time of receipt of the sample;

the data acquisition module acquires three-dimensional model construction data of the sample after receiving the data acquisition command, issues a drawing command to an art designing drawing module after the three-dimensional model construction data is acquired, and issues a mold blank manufacturing command to a mold blank manufacturing module; wherein the three-dimensional model construction data includes at least one of a six-view of the sample, a dimensional parameter of the sample, a shape of the sample, and a structure of the sample;

after receiving the mould blank manufacturing command, the mould blank manufacturing module manufactures and generates a mould blank corresponding to the sample according to the three-dimensional model construction data;

after receiving the drawing command, the art designing drawing module makes pictures according to the order information to obtain pictures of the object to be modeled, stores the pictures and then issues a modeling command to a modeling module;

after the model making module receives the model making command, distributing a model making task to a corresponding task group for making a three-dimensional model according to the picture, the mould blank and the difficulty degree of the order task;

when the warehousing management module records the warehousing related elements corresponding to the order tasks, the warehousing management module further comprises:

acquiring order information corresponding to the order task according to the triggered order confirmation button;

acquiring the sample state information list, and selecting a corresponding state of the sample when the sample is received from the sample state information list for recording;

when filling records of various warehousing related elements, determining that a receiving button and a sending button are automatically linked with a database in an order receiving module by setting the receiving button and the sending button in the warehousing management module, automatically linking the receiving button and the sending button to the database in the order receiving module when the receiving button is confirmed or the sending button is confirmed to be triggered, and automatically recording the acquired information to a corresponding position of the warehousing management module after acquiring corresponding information from the database of the order receiving module;

meanwhile, when filling records of states when the samples are received, different states can be selected in a list mode to realize;

when the filling of the item of the state when the sample is received needs to be recorded, the filling frame of the item is clicked, and when the filling frame of the item is triggered, the selection items in various states are automatically pushed out in a pull-down list mode; wherein the state of the sample upon receipt comprises; sample integrity, sample incomplete and sample damage.

2. The method of claim 1, further comprising:

after the three-dimensional model is manufactured, obtaining and recording model elements of the three-dimensional model;

wherein the model element includes at least one of a size parameter of the three-dimensional model, a number of pictures required to construct the three-dimensional model, and picture information.

3. The method of claim 2, further comprising:

when the three-dimensional model has an interactive manufacturing requirement, issuing an interactive design task instruction to an interactive manufacturing module;

and the interactive manufacturing module pushes and displays the requirements of the interactive design task after receiving the interactive design task, acquires the design document of the interactive design task after the interactive design task is completed, and records the interactive design elements.

4. A three-dimensional modeling device is characterized by comprising an order receiving module, a storage management module, a data acquisition module, a mold blank manufacturing module, an art designing drawing module and a model manufacturing module;

the order receiving module is configured to acquire and store a currently received order task; the order task comprises order information input by a user; the order information comprises at least one of an order number, a name of an object to be modeled, an order date, a color of the object to be modeled, a texture of the object to be modeled and sample information corresponding to the object to be modeled;

the storage management module is configured to receive the samples of the objects to be modeled, record storage related elements corresponding to the order tasks and issue data acquisition commands to the data acquisition module; wherein the warehousing-related factors include at least one of a time of receipt of the sample, a time of transmission of the sample, a state at the time of receipt of the sample;

the data acquisition module acquires three-dimensional model construction data of the sample after receiving the data acquisition command, issues a drawing command to the art designing drawing module after the three-dimensional model construction data is acquired, and issues a mold blank manufacturing command to the mold blank manufacturing module; wherein the three-dimensional model construction data includes at least one of a six-view of the sample, a size parameter of the sample, a shape of the sample, and a structure of the sample;

after the mould blank manufacturing module receives the mould blank manufacturing command, manufacturing and generating a mould blank corresponding to the sample according to the three-dimensional model construction data;

after receiving the drawing command, the art designing drawing module makes pictures according to the order information to obtain pictures of the object to be modeled, stores the pictures and then issues a modeling command to the modeling module;

after the model making module receives the model making command, distributing a model making task to a corresponding task group for making a three-dimensional model according to the picture, the mould blank and the difficulty degree of the order task;

the warehouse management module comprises an order information acquisition submodule and a list selection submodule:

the order information acquisition sub-module is configured to acquire order information corresponding to the order task according to the triggered order confirmation button;

the list selection submodule is configured to acquire the sample state information list, and select a corresponding state when the sample is received from the sample state information list to record;

when filling records of various warehousing related elements, a receiving confirmation button and a sending confirmation button are arranged in the warehousing management module, the receiving confirmation button and the sending confirmation button are determined to be automatically linked with a database in the order receiving module, when the receiving confirmation button or the sending confirmation button is triggered, the receiving confirmation button and the sending confirmation button are automatically linked to the database in the order receiving module, and after corresponding information is obtained from the database of the order receiving module, the obtained information is automatically recorded to a corresponding position of the warehousing management module;

meanwhile, when filling records of states when the samples are received, different states can be selected in a list mode to realize;

when the filling of the item of the state when the sample is received needs to be recorded, the filling frame of the item is clicked, and when the filling frame of the item is triggered, the selection items in various states are automatically pushed out in a pull-down list mode; wherein the state of the sample upon receipt comprises; sample integrity, sample incomplete and sample damage.

5. The apparatus of claim 4, wherein the modeling module comprises a model element record sub-module:

the model element recording submodule is configured to acquire and record the model elements of the three-dimensional model after the three-dimensional model is manufactured;

wherein the model element includes at least one of a size parameter of the three-dimensional model, a number of pictures required to construct the three-dimensional model, and picture information.

6. The apparatus of claim 5, further comprising an interactivity production module:

the model making module also comprises a task issuing sub-module;

the task issuing sub-module is configured to issue an interactive design task instruction to the interactive production module when the three-dimensional model has an interactive production requirement;

and the interactive manufacturing module pushes and displays the requirements of the interactive design task after receiving the interactive design task, acquires the design document of the interactive design task after the interactive design task is finished, and records interactive design elements.

7. A three-dimensional modeling apparatus, comprising:

a processor;

a memory for storing processor-executable instructions;

wherein the processor is configured to carry out the method of any one of claims 1 to 3 when executing the executable instructions.

8. A non-transitory computer readable storage medium having stored thereon computer program instructions, wherein the computer program instructions, when executed by a processor, implement the method of any one of claims 1 to 3.

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