CN113342443A - Interface generation method and device and computer readable storage medium - Google Patents

Abstract

The invention discloses an interface generating method, an interface generating device and a computer readable storage medium, wherein the interface generating method comprises the following steps: the method comprises the steps that a server side receives geometric data of a target part sent by a client side, wherein the geometric data are part data obtained by scanning a three-dimensional model of the target part by the client side; determining rendering parameters of a corresponding quotation interface of the target part according to the geometric data; and sending the rendering parameters to a client, wherein the client renders the quotation interface according to the rendering parameters and displays the quotation interface. Compared with the prior art, the method and the device have the advantages that the rendering parameter rendering speed of the client quotation interface is increased, the using process is optimized, the accuracy of the customized part in the rendering parameter of the client is improved, the occurrence of manual errors in the part customizing process is avoided, and the using experience of a user is optimized.

Description

Interface generation method and device and computer readable storage medium

Technical Field

The present invention relates to the field of computers, and in particular, to an interface generation method and apparatus, and a computer-readable storage medium.

Background

In the prior art, with the development of the mechanical die industry, parts required to be used are more and more complicated, and most of the parts are customized parts and need to be processed by a professional machining factory. Before the parts are machined, a die factory or a machine factory needs to provide part drawings for each supplier, each supplier refers to the part drawings manually, the geometric dimension of the parts in the part drawings is measured and calculated manually, and quotations are given, the measuring and calculating time is long, the whole quotation process needs to take about one day, the quotations obtained by each supplier through manual measuring and calculating are not uniform, and the situation that the quotations are wrong due to the fact that the manual measuring and calculating are wrong can occur, and user experience is poor.

Disclosure of Invention

The invention mainly aims to provide an interface generation method, and aims to solve the technical problems that price quotations of customized parts are not uniform and time is long in the prior art.

In order to achieve the above object, the present invention provides an interface generating method, including the following steps:

the server side receives geometric data of the target part sent by the client side;

determining rendering parameters of a corresponding quotation interface of the target part according to the geometric data;

and sending the rendering parameters to a client, wherein the client renders the quotation interface according to the rendering parameters and displays the quotation interface.

The method comprises the following steps that the server side receives geometric data of a target part sent by a client side, and comprises the following steps:

the client extracts a three-dimensional model of the target part corresponding to a preset name in the part drawing file;

and receiving the geometric data of the target part, which is acquired by the client and corresponds to a preset name.

Wherein the step of determining rendering parameters of a corresponding price quote interface for the target part from the geometric data comprises:

presetting a processing difficulty coefficient identification model, wherein the processing difficulty coefficient identification model is provided with at least one processing difficulty coefficient interval;

and inputting the geometric data of the target part into the machining difficulty coefficient identification model, and calculating the machining difficulty coefficient of the target part.

Wherein the step of determining rendering parameters of a corresponding price quote interface for the target part according to the geometric data comprises:

determining delivery cycle rendering parameters of an offer interface of the target part based on the processing difficulty coefficient of the target part.

Wherein the step of determining rendering parameters of a corresponding price quote interface for the target part according to the geometric data comprises:

and calculating the customized price rendering parameters of the corresponding price quotation interface of the target part according to the preset material unit price, the geometric data, the processing difficulty coefficient and the delivery cycle.

After the step of determining rendering parameters of the price quotation interface corresponding to the target part according to the geometric data, the method further comprises the following steps of:

acquiring the number and/or the three-dimensional model screenshot of the target part sent by the client;

and extracting rendering parameters corresponding to the number of the target part and/or the three-dimensional model screenshot, and rendering the quotation interface of the target part correspondingly.

In order to achieve the above object, the present invention further provides another interface generating method, including the following steps:

the method comprises the steps that a client side obtains a part drawing file, and obtains a three-dimensional model of a target part in the part drawing file;

measuring geometric data of the target part based on the three-dimensional model of the target part;

sending the geometric data of the target part to the server side, and receiving the rendering parameters of the quotation interface returned by the server side;

and correspondingly rendering the quotation interface of the target part according to the rendering parameters of the quotation interface, and displaying the quotation interface of the target part.

Wherein the step of measuring the geometric data of the target part based on the three-dimensional model of the target part comprises:

scanning the three-dimensional model of the target part, and determining the number of the machined surfaces of the part and the machining content of the part;

acquiring part size data and part processing content size data of the target part;

and marking the part size data, the part processing surface number and the part processing content size data as the geometric data of the target part.

In addition, to achieve the above object, the present invention also provides an interface generating apparatus, including: the interface generation program can be stored on the memory and run on the processor, and when being executed by the processor, the interface generation program realizes the steps of the interface generation method.

In addition, to achieve the above object, the present invention also provides a computer readable storage medium having stored thereon an interface generating program, which when executed by a processor, implements the steps of the interface generating method as described above.

The interface generation method provided by the embodiment of the invention comprises the steps of obtaining a part drawing file through a client, and identifying and extracting a three-dimensional model of a target part in the part drawing file according to the part drawing file; after a three-dimensional model of a target part is obtained, geometric data of the target part is determined, the geometric data of the part is sent to a server side, the server side calculates and obtains a customized price rendering parameter of the target part according to the geometric data of the target part, the rendering parameter is sent to a client side, the client side is driven to correspondingly render a quotation interface according to the rendering parameter, and the rendered quotation interface is displayed on a display interface of the client side. The method has the advantages that the target part needing to be customized is automatically identified according to the part drawing file, the customized price rendering parameter is automatically determined according to the geometric information of the target part, the rendering speed of the quotation interface is increased, the quotation interface rendering flow is optimized, the uniformity of the customized price rendering parameter of the target part is ensured, the quotation interface rendering accuracy of the customized part is improved, manual errors in the quotation interface rendering process are avoided, and the use experience of a user is optimized.

Drawings

Fig. 1 is a schematic structural diagram of an interface generation apparatus of a hardware operating environment according to an embodiment of the present invention;

FIG. 2 is a schematic flow chart illustrating an interface generating method according to an embodiment of the present invention;

FIG. 3 is a timing diagram illustrating an embodiment of an interface generating method according to the present invention;

fig. 4 is a schematic flow chart of another embodiment of the interface generating method of the present invention.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The main solution of the embodiment of the application is as follows: acquiring a part drawing file through a client, and identifying and extracting a three-dimensional model of a target part in the part drawing file according to the part drawing file; after a three-dimensional model of a target part is obtained, geometric data of the target part is determined, the geometric data of the part is sent to a server side, the server side calculates and obtains a customized price rendering parameter of the target part according to the geometric data of the target part, the rendering parameter is sent to a client side, the client side is driven to correspondingly render a quotation interface according to the rendering parameter, and the rendered quotation interface is displayed on a display interface of the client side. The method has the advantages that the target part needing to be customized is automatically identified according to the part drawing file, the customized price rendering parameter is automatically determined according to the geometric information of the target part, the rendering speed of the quotation interface is increased, the quotation interface rendering flow is optimized, the uniformity of the customized price rendering parameter of the target part is ensured, the quotation interface rendering accuracy of the customized part is improved, manual errors in the quotation interface rendering process are avoided, and the use experience of a user is optimized.

As shown in fig. 1, fig. 1 is a schematic structural diagram of an interface generating apparatus of a hardware operating environment according to an embodiment of the present application.

As shown in fig. 1, an embodiment of the present application relates to an interface generating apparatus, which may include: a processor 1001, such as a CPU, a communication bus 1002, a user interface 1003, a network interface 1004, and a memory 1005. Wherein a communication bus 1002 is used to enable connective communication between these components. The user interface 1003 may include a Display screen (Display), an input unit such as a keyboard mouse, and the like. The network interface 1004 may optionally include a standard wired interface, a wireless interface (e.g., WI-FI interface). The memory 1005 may be a high-speed RAM memory or a non-volatile memory (e.g., a magnetic disk memory). The memory 1005 may alternatively be a storage device separate from the processor 1001.

Optionally, the interface generating device may further include a camera, a sound card module, a Radio Frequency (RF) circuit, a sensor, a remote controller, an audio circuit, a WiFi module, a detector, and the like.

Those skilled in the art will appreciate that the interface generating means configuration shown in fig. 1 does not constitute a limitation of the interface generating means and may include more or fewer components than those shown, or some components may be combined, or a different arrangement of components.

As shown in fig. 1, a memory 1005, which is a kind of computer-readable storage medium, may include therein an operating system, a network communication module, a user interface module, and an interface generating program.

In the interface generating apparatus shown in fig. 1, the network interface is mainly used for connecting a client and performing data interaction with the client, the user interface 1003 is mainly used for performing data communication with a user and receiving a setting instruction or other instruction of the user, and the processor 1001 may be used for calling an interface generating program stored in the memory 1005 and performing the following operations:

the method comprises the steps that a server side receives geometric data of a target part sent by a client side, wherein the geometric data are part data obtained by scanning a three-dimensional model of the target part by the client side;

determining rendering parameters of a corresponding quotation interface of the target part according to the geometric data;

and sending the rendering parameters to a client, wherein the client renders the quotation interface according to the rendering parameters and displays the quotation interface.

Further, the processor 1001 may also call an interface generation program stored in the memory 1005, and perform the following operations:

and receiving the geometric data of the target part, which is acquired by the client and corresponds to a preset name.

Further, the processor 1001 may also call an interface generation program stored in the memory 1005, and perform the following operations:

presetting a processing difficulty coefficient identification model, wherein the processing difficulty coefficient identification model is provided with at least one processing difficulty coefficient interval;

and inputting the geometric data of the target part into the machining difficulty coefficient identification model, and calculating the machining difficulty coefficient of the target part.

Further, the processor 1001 may also call an interface generation program stored in the memory 1005, and perform the following operations:

determining delivery cycle rendering parameters of an offer interface of the target part based on the processing difficulty coefficient of the target part.

Further, the processor 1001 may also call an interface generation program stored in the memory 1005, and perform the following operations:

and calculating a customized price rendering parameter of a corresponding quotation interface of the target part according to a preset material unit price, the geometric data and the processing difficulty coefficient.

Further, the processor 1001 may also call an interface generation program stored in the memory 1005, and perform the following operations:

acquiring the number and/or the three-dimensional model screenshot of the target part sent by the client;

and extracting rendering parameters corresponding to the number of the target part and/or the three-dimensional model screenshot, and rendering the quotation interface of the target part correspondingly.

Referring to fig. 2, fig. 2 is a schematic flow chart of an embodiment of the interface generating method of the present invention.

In this embodiment, the interface generation method includes:

step S10: the server side receives geometric data of the target part sent by the client side;

as shown in fig. 1 and fig. 3, in this embodiment, the interface generating system includes a server side and a client side. The server side is a server or other intelligent terminal which is set by a part customizer and is configured to identify the geometric data of the target part and automatically generate the customized quotation rendering parameters of the customized part. The client side is an intelligent terminal which is oriented to a client group, can receive the part drawing of a user, automatically analyzes the geometric data of the target part carried in the part drawing, and renders and displays the quotation interface of the customized part on the display interface.

Specifically, a target part database is preset in the client. The target part database is internally provided with preset names of one or more customized parts, and optionally, the preset names can be part names of parts which can be produced by the manufacturer of the customized parts and are written by an administrator when the target part database is set.

Optionally, when the client sets the target part database, and users as a client group have a part customization requirement, the part drawing file is imported into the client, and after receiving the part drawing file, the client identifies a three-dimensional model of a part in the part drawing file, obtains a model name stored in an entity attribute of the three-dimensional model of the part, and obtains a three-dimensional model of the part, the model name of which is matched with a preset name in the target part database, so as to extract the three-dimensional model of the target part recorded in the part drawing file. The target part is a customized part which needs to be customized by a user, and the name of the model is matched with the preset name in the target part database.

Optionally, when the client identifies and scans the three-dimensional model of the target part, the client may identify the three-dimensional model of a single target part or identify the three-dimensional models of multiple target parts simultaneously.

Optionally, the user can also manually select a three-dimensional model of the target part, which does not store the preset name, in the target part database. And the client further identifies the target part manually selected by the user.

Optionally, after obtaining the three-dimensional model of the target part, the client calls the screenshot module to screenshot the three-dimensional model of the target part, obtain the three-dimensional screenshot rendering parameter of the target part, and number the target part, so that the user can distinguish the customized part price rendering parameter of the target part according to the three-dimensional screenshot rendering parameter, and optimize user experience.

In this embodiment, after obtaining the three-dimensional model of the target part, the client performs geometric analysis and measurement on the three-dimensional model of the target part, so as to determine geometric data of the target part.

Specifically, the client scans the three-dimensional model of the target part and determines the part processing surface number and the part processing content of the target part, wherein the part processing surface number is the number of the three-dimensional model surfaces of the target part, and the more the number of the three-dimensional model surfaces of the target part is, the more the part model is complex. The part processing content is holes, grooves or other processing contents which are required to be formed by processing the part blank into the target part. The interface generating device scans the three-dimensional model of the target part and determines the distribution position information of the holes and the grooves in the three-dimensional model of the target part.

Specifically, the client further performs geometric analysis and measurement on the three-dimensional model of the target part to obtain part size data of the target part, wherein the part size data is the overall size data of the target part and at least comprises length data of the target part, width data of the target part and height data of the target part.

Specifically, the client performs geometric analysis on the three-dimensional model, and also obtains part machining content size data of the target part, and specifically, the part machining content size data at least includes hole size data and groove size data of a hole to be machined and formed by the target part. Specifically, the hole size includes the diameter and depth of the hole; the groove size data includes a groove volume and a groove area.

Optionally, when the client obtains the size data of the part processing content of the three-dimensional model, the client also correspondingly obtains the processing direction information of the part processing content.

Optionally, after the part size data and the part processing content size data of the target part are obtained, the client summarizes and marks the part size data and the part processing content size data as the geometric data of the target part, and sends the geometric data of the target part to the server, so that the server generates the customized price rendering parameter for use.

Optionally, in another embodiment, the client further obtains one or more data of the bevel area, the plane area, and the curved surface area of the target part, and summarizes the obtained bevel area, plane area, and curved surface area into the geometric data of the target part, and sends the geometric data of the target part to the server, so that the server generates the customized price rendering parameter based on the geometric data of the target part.

Step S20: determining rendering parameters of a corresponding quotation interface of the target part according to the geometric data;

specifically, a material unit price database is built in the server, and the material unit price database is provided with mapping relations between the materials of the parts and the unit prices of the parts. The server side receives geometric data of a target part acquired by the client side based on a part drawing file, acquires part size data in the geometric data of the target part, acquires length data, width data and height data of the target part, calculates the volume of the target part according to the length data, the width data and the height data of the target part, multiplies the volume of the acquired target part by density to acquire the weight of the target part, multiplies the unit price of a material corresponding to the material of the part by the weight of the target part to acquire a required material cost rendering parameter for customizing the target part.

Optionally, in a specific embodiment, the server presets a single preset material unit price for the target part, and the server obtains the material cost rendering parameter required for customizing the target part according to the multiplication of the preset material unit price and the weight of the target part.

Optionally, in another specific embodiment, the server presets multiple preset material unit prices for the target part material, and the server calculates, according to the multiple preset material unit prices, a material cost rendering parameter required when the target part is customized by using different preset materials, and displays the material cost rendering parameter required for the target part with different preset materials on a subsequent quotation interface.

Specifically, the server side further calculates a machining cost rendering parameter of the target part according to the part machining content size data of the target part.

Specifically, the server side obtains hole type geometric data, namely the diameter and the depth of a hole, in the part machining content size data. Specifically, the interface generating device is provided with a processing unit price database with different hole diameters, and the processing unit prices of the holes with different diameters are different. In one embodiment, the hole diameter is 8mm (unit: mm) to 9mm (unit: mm) and the processing unit price per 1mm (unit: mm) depth is 0.1 yuan; the interface generation device calls a processing unit price database to correspondingly calculate the processing fee rendering parameters of the hole processing contents of the target part, wherein the diameter of the hole is 9mm (unit: millimeter) to 10mm (unit: millimeter), the processing unit price per 1mm (unit: millimeter) depth is 0.15 yuan.

Specifically, the server side also obtains groove type geometric data, namely groove volume and groove area, in the part machining content dimension data. Optionally, the processing fee rendering parameters of the groove type processing content include a rough processing fee rendering parameter and a finish processing fee rendering parameter. The interface generating device presets the rough machining unit price of the unit groove volume, and multiplies the rough machining unit price of the unit groove volume by the groove volume, so as to obtain the rough machining cost rendering parameters of the groove type machining content of the target part. Optionally, the interface generating device further presets a finishing unit price of the unit groove area, and multiplies the finishing unit price of the unit groove area by the groove area to be finished, thereby obtaining a finishing fee rendering parameter of the groove processing content.

And the server side calculates to obtain a customized price rendering parameter of the target part according to the preset material unit price of the target part, the processing cost rendering parameter of the hole type processing content, the rough processing cost rendering parameter of the groove type processing content, the finish processing cost rendering parameter of the groove type processing content and the corresponding processing difficulty coefficient.

Step S30: and sending the rendering parameters to a client, wherein the client renders the quotation interface according to the rendering parameters and displays the quotation interface.

Specifically, the server side sends the acquired rendering parameters to the client side after generating the customized price rendering parameters and delivery cycle rendering parameters generated by the geometric data of the target part.

After the client receives the customized price rendering parameter, delivery cycle rendering parameter, target part number and three-dimensional model screenshot of the target part, which are sent back by the server, the client generates a quotation interface of the customized part of the part drawing file, and inputs the target part number, the part three-dimensional shape screenshot rendering parameter, the delivery cycle rendering parameter and the customized part quotation parameter into the quotation interface of the customized part to render the quotation interface of the customized part.

Specifically, the server side can also determine a corresponding target part according to the target part number and the three-dimensional model screenshot, input the customized price rendering parameter and the delivery cycle rendering parameter of the target part into the price quotation interface of the customized part, generate the price quotation interface of the customized part at the server side, and send the rendered price quotation interface to the client side.

Alternatively, in one embodiment, the price quote interface for the customized part may be provided in the form of a price quote. Specifically, the server side sends the delivery period rendering parameter and the customized price rendering parameter to the client side, so that the client side generates a quotation PDF file locally after receiving the delivery period rendering parameter and the customized price rendering parameter.

Optionally, in a specific embodiment, the rendering parameters of the quotation interface of the customized part include price rendering parameters of the customized part, delivery cycle rendering parameters, customized part number, rendering parameters of the three-dimensional screenshot of the part, and other rendering parameters of the quotation interface.

Optionally, the server sends the delivery cycle rendering parameter and the customized price rendering parameter to the client, so that after receiving the delivery cycle rendering parameter and the customized price rendering parameter, the client displays a quotation interface carrying the delivery cycle rendering parameter and the customized price rendering parameter of the target part on a display interface, and sends a prompt message carrying a completion prompt of the customized part quotation to the user.

Optionally, after receiving the order or order payment information of the user, the client sends a model drawing file uploading request to the user, and requests the user to upload a complete part processing drawing file of the customized part, and the manufacturer processes and customizes the customized part according to the complete part processing drawing file. The order payment information comprises feedback information generated after the user completes part payment through the payment link or the payment two-dimensional code.

Specifically, after acquiring the part processing drawing file, the client transmits the part processing drawing file to the server, and after acquiring the part processing drawing file, the server associates and binds the part processing drawing file and the quotation number and stores the part processing drawing file and the quotation number in a specified storage folder.

In the embodiment, the server correspondingly calculates the customized price rendering parameter of the target part based on the geometric data and the processing difficulty coefficient of the target part measured by the client, and sends the customized price rendering parameter and the delivery period rendering parameter to the client, the client is driven to correspondingly generate the quotation interface of the customized part carrying the customized price rendering parameter, and the rendered quotation interface is displayed on the display interface, so that the quick unified quotation is realized, the artificial error caused by human in the quotation process is reduced, the quotation effectiveness of the customized part is improved, the quotation period of the customized part can be effectively shortened, the waiting time of a user is saved, and the user experience is improved.

Referring to fig. 4, fig. 4 is a schematic flow chart of another embodiment of the interface generating method of the present invention.

Step S01: the method comprises the steps that a server side presets a machining difficulty coefficient identification model, wherein the machining difficulty coefficient identification model is provided with at least one machining difficulty coefficient interval;

step S21: and inputting the geometric data of the target part into the machining difficulty coefficient identification model, and calculating the machining difficulty coefficient of the target part.

In this embodiment, a processing difficulty coefficient identification model for distinguishing a processing difficulty coefficient of a target part is provided in the server side, specifically, at least one processing difficulty coefficient interval is preset in the processing difficulty coefficient identification model, and the server side determines the processing difficulty coefficient of the target part from a plurality of dimensions according to the processing difficulty coefficient identification model, wherein the processing difficulty coefficient is a correlation coefficient for determining the customization difficulty of the target part. The larger the processing difficulty coefficient is, the larger the delivery cycle rendering parameter and the customized price rendering parameter are.

Specifically, the identification interval for determining the machining difficulty coefficient according to the size of the part is preset in the machining difficulty coefficient identification model, and optionally, in practical application, the larger the target part to be machined is, the larger the required machining tool is, and therefore the larger the corresponding part machining difficulty coefficient is. In one embodiment, the machining difficulty coefficient section is provided with a small part section, a medium part section and a large part section corresponding to the part size threshold of the target part. The processing difficulty coefficients corresponding to the small part interval, the medium part interval and the large part interval are increased in sequence. Optionally, in another embodiment, the identification intervals for refining each processing difficulty coefficient may be further set according to actual requirements.

Specifically, the identification interval for determining the processing difficulty coefficient according to the part processing surface number of the target part is also preset in the processing difficulty coefficient identification model, specifically, the more the part processing surface number of the target part needs to be processed, the more the target part is complex, and the greater the corresponding processing difficulty coefficient is. The processing difficulty coefficient identification model is characterized in that a plurality of identification intervals with different parts processing surface numbers are sequentially and correspondingly arranged in a processing difficulty coefficient identification interval from few to many according to the parts processing surface numbers. The more the number of the part processing surfaces corresponding to the identification section is, the larger the corresponding processing difficulty coefficient is.

Specifically, an algorithm section for determining the processing difficulty coefficient according to the processing content of the part is also preset in the processing difficulty coefficient identification model, and specifically, a plurality of identification sections of the processing difficulty coefficients are correspondingly set in the algorithm section according to the hole size data, the groove size data, the position information of the hole, the position information of the groove and the processing direction of the processing content in the processing content of the part. And analyzing the processing difficulty coefficient of the part processing content of the target part according to the identification interval, thereby determining the identification interval which meets the processing difficulty coefficient of the target part.

Specifically, after acquiring the geometric data of the target part sent by the client, the server inputs the geometric data of the target part into the processing difficulty coefficient identification model, and calls the processing difficulty coefficient identification model to analyze the geometric data of the target part, so that the processing difficulty coefficient of the target part is obtained through comprehensive calculation, and the processing difficulty coefficient of the target part is finally output.

Specifically, the server side is further provided with a delivery cycle database, wherein delivery cycle rendering parameters corresponding to the processing difficulty coefficient are preset in the delivery cycle database.

Specifically, after the server side obtains the processing difficulty coefficient of the target part, the delivery cycle rendering parameter of the target part is correspondingly obtained according to the processing difficulty coefficient. Wherein, the larger the processing difficulty coefficient is, the larger the value of the delivery cycle rendering parameter is.

Specifically, the server side further determines a customized price rendering parameter of the target part according to the processing difficulty coefficient, the geometric data and the preset material unit price of the target part, wherein the customized price rendering parameter of the target part comprises a material cost rendering parameter of the target part and a processing cost rendering parameter of the target part.

Specifically, after determining the delivery cycle rendering parameter of the target part, the server transmits the delivery cycle rendering parameter and the customized price rendering parameter of the target part to the client, so that the client renders the quotation interface according to the delivery cycle rendering parameter and the customized price rendering parameter.

In this embodiment, a part drawing file carrying a target part to be customized is obtained, a three-dimensional model of the target part is extracted based on the part drawing file, geometric data of the three-dimensional model is obtained according to measurement of the three-dimensional model of the target part, and the geometric data is input into a preset processing difficulty coefficient model, so that a processing difficulty coefficient of the target part is determined according to the geometric data. And determining delivery cycle rendering parameters of the target part according to the obtained processing difficulty coefficient, so that the client can further render the quotation interface according to the delivery cycle rendering parameters.

In addition, to implement the foregoing embodiment, the present application further provides an interface generating system, including:

the client is used for receiving the part drawing file, acquiring a three-dimensional model of a target part carried in the part drawing file, acquiring geometric data of the target part based on the three-dimensional model, sending the geometric data of the target part to a server, and correspondingly rendering a quotation interface of the target part according to rendering parameters returned by the server;

the server is used for receiving the geometric data of the target part sent by the client, generating corresponding rendering parameters of the target part based on the geometric data, transmitting the rendering parameters to the client and driving the client to correspondingly render the quotation interface of the target part;

the interface generation system, when executed, implements any of the steps of the interface generation method as described in the embodiments above.

In addition, the present application also provides a computer readable storage medium, on which an interface generating program is stored, and when the interface generating program is executed by a processor, the steps of the interface generating method are implemented.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or system. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or system that comprises the element.

The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.

Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium (e.g., ROM/RAM, magnetic disk, optical disk) as described above and includes instructions for causing a terminal device to execute the method according to the embodiments of the present invention.

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

Claims (10)

1. An interface generation method, characterized by comprising the steps of:

the method comprises the steps that a server side receives geometric data of a target part sent by a client side, wherein the geometric data are part data obtained by scanning a three-dimensional model of the target part by the client side;

determining rendering parameters of a corresponding quotation interface of the target part according to the geometric data;

and sending the rendering parameters to a client, wherein the client renders the quotation interface according to the rendering parameters and displays the quotation interface.

2. The interface generation method of claim 1, wherein the step of receiving, by the server side, the geometric data of the target part sent by the client side comprises:

the client extracts a three-dimensional model of the target part corresponding to a preset name in the part drawing file;

and receiving the geometric data of the target part, which is acquired by the client and corresponds to a preset name.

3. The interface generation method of claim 1, wherein the determining rendering parameters for the corresponding price quote interface for the target part from the geometric data step comprises:

presetting a processing difficulty coefficient identification model, wherein the processing difficulty coefficient identification model is provided with at least one processing difficulty coefficient interval;

and inputting the geometric data of the target part into the machining difficulty coefficient identification model, and calculating the machining difficulty coefficient of the target part.

4. The interface generation method of claim 3, wherein the determining rendering parameters for the corresponding price quote interface for the target part from the geometric data step comprises:

and calculating delivery cycle rendering parameters of an offer interface of the target part according to the processing difficulty coefficient of the target part.

5. The interface generation method of claim 3, wherein the determining rendering parameters for the corresponding price quote interface for the target part from the geometric data step comprises:

and calculating a customized price rendering parameter of a corresponding quotation interface of the target part according to a preset material unit price, the geometric data and the processing difficulty coefficient.

6. The interface generation method of claim 1, wherein after the step of determining rendering parameters for the corresponding price quote interface for the target part from the geometric data, further comprising:

acquiring the number and/or the three-dimensional model screenshot of the target part sent by the client;

and extracting rendering parameters corresponding to the number of the target part and/or the three-dimensional model screenshot, and rendering the quotation interface of the target part correspondingly.

7. An interface generation method, characterized by comprising the steps of:

the method comprises the steps that a client side obtains a part drawing file, and obtains a three-dimensional model of a target part in the part drawing file;

measuring geometric data of the target part based on the three-dimensional model of the target part;

sending the geometric data of the target part to the server side, and receiving the rendering parameters of the quotation interface returned by the server side;

correspondingly rendering the quotation interface of the target part according to the rendering parameters of the quotation interface, and displaying the quotation interface of the target part;

and confirming the order payment information of the target part, displaying a part processing drawing file uploading prompt, and receiving the part processing drawing file.

8. The interface generating method of claim 7, wherein said step of measuring geometric data of said target part based on said three-dimensional model of said target part comprises:

scanning the three-dimensional model of the target part, and determining the part processing surface number and the part processing content of the target part;

acquiring part size data and part processing content size data of the target part;

and marking the part size data, the part processing surface number and the part processing content size data as the geometric data of the target part.

9. An interface generating apparatus, characterized in that the interface generating apparatus comprises a memory, a processor and an interface generating program stored on the memory and operable on the processor, and the processor implements the steps of the interface generating method according to any one of claims 1 to 8 when executing the interface generating program.

10. A computer-readable storage medium, characterized in that the computer-readable storage medium has stored thereon an interface generation program, which when executed by a processor implements the steps of the interface generation method according to any one of claims 1 to 8.

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