CN116628788A - Drawing method, drawing device, storage medium and equipment - Google Patents

Abstract

The application discloses a drawing method, a drawing device, a storage medium and equipment, relates to the field of drawing, and can solve the problem of low drawing efficiency. Comprising the following steps: obtaining a target to-be-manufactured process diagram, and marking preset element sizes of the target to-be-manufactured process diagram by utilizing preset dynamic parameters, wherein the target to-be-manufactured process diagram comprises target process operation; determining a target conversion formula table of a target to-be-manufactured process diagram, wherein the target conversion formula table comprises preset dynamic parameters and target conversion formulas corresponding to the preset dynamic parameters; obtaining a drawing size value corresponding to a preset dynamic parameter, and converting the drawing size value into a sketch size value by using a target conversion formula; and correspondingly filling the dimension values of the sketch into preset dynamic parameters until all the preset dynamic parameters are filled, so as to obtain the manufactured target process sketch.

Description

Drawing method, drawing device, storage medium and equipment

Technical Field

The present application relates to the field of graphics, and in particular, to a graphics method, apparatus, storage medium, and device.

Background

In the preparation work of the prenatal process technology of the centrifugal compressor, the technical requirements such as specific processing parts, sizes, precision and the like are more clearly and obviously expressed by a mode of assisting a manufacturing process diagram, so that the processing guidance significance of the product process technology file is improved.

At present, for the manufacture of each process diagram, a worker is required to manually draw the process diagram first and then manually fill in the dimension, and the variety and the number of the centrifugal compressors are large, so that the work load for drawing the process diagram is large, the repeatability is high, the dimension is easy to make mistakes in manual filling in, and the drawing efficiency is reduced.

Disclosure of Invention

In view of the above, the application provides a drawing method, a device, a storage medium and equipment, relates to the field of drawing, and can solve the problem of low drawing efficiency.

According to one aspect of the present application, there is provided a drawing method, the method comprising:

obtaining a target to-be-manufactured process diagram, and marking preset element sizes of the target to-be-manufactured process diagram by using preset dynamic parameters, wherein the target to-be-manufactured process diagram comprises target process operation;

determining a target conversion formula table of the target to-be-manufactured process diagram, wherein the target conversion formula table comprises the preset dynamic parameters and target conversion formulas corresponding to the preset dynamic parameters;

acquiring a drawing size value corresponding to the preset dynamic parameter, and converting the drawing size value into a sketch size value by using the target conversion formula;

and correspondingly filling the dimension values of the sketch into the preset dynamic parameters until all the preset dynamic parameters are filled, so as to obtain the manufactured target process sketch.

Preferably, the labeling the preset element size of the target to-be-manufactured process diagram by using a preset dynamic parameter includes:

determining the sizes of preset elements to be marked in the target to-be-manufactured process diagram, and setting the preset sequence in which the sizes of the preset elements are marked;

and marking the preset element sizes by using preset dynamic parameters according to the preset sequence.

Preferably, said filling the schematic size value into the preset dynamic parameter correspondingly includes:

and arranging the diagram size values corresponding to the preset dynamic parameters according to the preset sequence, and sequentially filling the diagram size values into the preset dynamic parameters.

Preferably, the target to-be-manufactured process diagram comprises: title block, roughness block and technical requirements;

and the step of obtaining a target process diagram after the completion of the manufacture is completed until all the preset dynamic parameters are filled, comprising the following steps:

and filling all the preset dynamic parameters, the header block, the roughness block and the technical requirements to obtain a finished target process diagram.

According to another aspect of the present application, there is provided a drawing apparatus including:

the marking module is used for obtaining a target to-be-manufactured process diagram and marking preset element sizes of the target to-be-manufactured process diagram by utilizing preset dynamic parameters, wherein the target to-be-manufactured process diagram comprises target process operation;

the determining module is used for determining a target conversion formula table of the target to-be-manufactured process diagram, wherein the target conversion formula table comprises the preset dynamic parameters and target conversion formulas corresponding to the preset dynamic parameters;

the conversion module is used for obtaining a drawing size value corresponding to the preset dynamic parameter, and converting the drawing size value into a sketch size value by utilizing the target conversion formula;

and the filling module is used for correspondingly filling the dimension values of the sketch into the preset dynamic parameters until all the preset dynamic parameters are filled, so as to obtain the manufactured target process sketch.

Preferably, the labeling module is specifically configured to: determining the sizes of preset elements to be marked in the target to-be-manufactured process diagram, setting the preset sequence in which the sizes of the preset elements are marked, and marking the sizes of the preset elements by using preset dynamic parameters according to the preset sequence.

Preferably, the filling module is specifically applicable to: and arranging the diagram size values corresponding to the preset dynamic parameters according to the preset sequence, and sequentially filling the diagram size values into the preset dynamic parameters.

Preferably, the target to-be-manufactured process diagram comprises: title block, roughness block and technical requirements;

the filling module is specifically further configured to: and filling all the preset dynamic parameters, the header block, the roughness block and the technical requirements to obtain a finished target process diagram.

According to still another aspect of the present application, there is provided a storage medium having stored thereon a computer program which, when executed by a processor, implements the above-described mapping method.

According to still another aspect of the present application, there is provided a computer apparatus including a storage medium, a processor, and a computer program stored on the storage medium and executable on the processor, the processor implementing the drawing method described above when executing the program.

By means of the technical scheme, the application discloses a drawing method, a drawing device, a storage medium and drawing equipment, wherein a target to-be-manufactured process diagram is firstly obtained, preset element sizes of the target to-be-manufactured process diagram are marked by preset dynamic parameters, and the target to-be-manufactured process diagram comprises target process operation; determining a target conversion formula table of a target to-be-manufactured process diagram, wherein the target conversion formula table comprises preset dynamic parameters and target conversion formulas corresponding to the preset dynamic parameters; obtaining a drawing size value corresponding to a preset dynamic parameter, and converting the drawing size value into a sketch size value by using a target conversion formula; and correspondingly filling the dimension values of the sketch into preset dynamic parameters until all the preset dynamic parameters are filled, so as to obtain the manufactured target process sketch. According to the technical scheme, on one hand, as the same parts in different types of centrifugal compressors have the same structure, the to-be-manufactured process sketch of each part under different process operations is drawn in advance, so that the process sketch does not need to be drawn repeatedly, only the target to-be-manufactured process sketch needs to be directly obtained from the drawn to-be-manufactured process sketch, the workload is reduced, and the drawing efficiency is improved; on the other hand, the drawing size value is converted into the diagram size value through the target conversion formula table corresponding to the target to-be-manufactured process diagram, corresponding preset dynamic parameters are automatically filled in, manual calculation is not needed, manual filling is not needed, the workload is reduced, the error rate is reduced, and the drawing efficiency is improved.

The foregoing description is only an overview of the present application, and is intended to be implemented in accordance with the teachings of the present application in order that the same may be more clearly understood and to make the same and other objects, features and advantages of the present application more readily apparent.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this specification, illustrate embodiments of the application and together with the description serve to explain the application and do not constitute an undue limitation to the present application. In the drawings:

FIG. 1 shows a schematic flow chart of a drawing method according to an embodiment of the present application;

FIG. 2 is a schematic diagram of a drawing device according to an embodiment of the present application;

FIG. 3 shows an exemplary diagram of a schematic diagram of a process for obtaining a target to be manufactured provided by an embodiment of the present application;

FIG. 4 is an exemplary diagram showing a process for labeling preset element sizes of a target process recipe with preset dynamic parameters according to an embodiment of the present application;

fig. 5 shows an exemplary diagram of the completion of the preset element sizes of the target process recipe using preset dynamic parameters according to an embodiment of the present application.

Detailed Description

The application will be described in detail hereinafter with reference to the drawings in conjunction with embodiments. It should be noted that, without conflict, the embodiments of the present application and features of the embodiments may be combined with each other.

In view of the current problem, an embodiment of the present application provides a mapping method, as shown in fig. 1, including:

101. and obtaining a target to-be-manufactured process diagram, and marking the preset element sizes of the target to-be-manufactured process diagram by utilizing preset dynamic parameters.

It should be noted that, because the same components have the same structure in different kinds of centrifugal compressors, the to-be-manufactured process diagrams of each component under different process operations are drawn in advance, wherein the process operations refer to the processing operations of the components, the to-be-manufactured process diagrams comprise main blocks and chamfer detail blocks, when the target component is prepared by the prenatal process technology, the target to-be-manufactured process diagrams corresponding to the target component are directly obtained, repeated drawing is not needed, time is saved, workload is reduced, and meanwhile, because the preset element sizes of the target to-be-manufactured process diagrams are uniformly set and completed, personal wrong setting or missing setting can be avoided, and the drawing efficiency is improved, wherein the target to-be-manufactured process diagrams comprise the target process operations.

Specifically, CAXA software is opened, the management of a map library is clicked, my map library is selected, for example, BCL shell end covers are selected (BCL refers to BCL centrifugal compressors, BCL centrifugal compressors belong to one of the centrifugal compressors), BCL single-layer single-arc groove end covers are selected, BCL single-arc groove end cover surfacing process map 1 and BCL single-arc groove end cover surfacing process map 2 are shown on the left side of fig. 3, BCL single-arc groove end cover surfacing process map 1 is selected, corresponding to the "map" on the right side of fig. 3, a target to-be-manufactured process diagram, that is, BCL single-arc groove end cover surfacing process map 1 is shown, wherein the target to-be-manufactured process diagram comprises a main block (in the center position of the "map") and a chamfer detail block (in the second from top to bottom on the right side of the main block is an inner chamfer detail block, and the third from top to bottom is an outer chamfer block on the right side of the main block), preferably, the target to-be-manufactured process diagram comprises a chamfer detail block, and the target to-be-manufactured chamfer detail block is a chamfer detail map is a target detail map to guide map to avoid the appearance of a target detail map crack, such as a target detail map is set to be formed to be a chamfer detail map.

For this embodiment, as an implementation manner, for both the main tile and the chamfer detail block, the part structure has a preset element size, and the preset element size is not filled with specific data. Labeling the preset element sizes of the target to-be-manufactured process diagram by using preset dynamic parameters, wherein the method comprises the following steps: determining the sizes of preset elements to be marked in a target to-be-manufactured process diagram, and setting the preset sequence in which the sizes of the preset elements are marked; and marking the sizes of the preset elements by using preset dynamic parameters according to a preset sequence. Wherein the number of preset dynamic parameters is equal to the number of preset element sizes. In the prior art, specific data of preset element sizes of all positions are filled manually, the workload is large, the data is complex, and the correctness of the input data cannot be ensured.

Specifically, the preset sequence 0 is the preset element size of the position 1, the preset sequence 1 is the preset element size of the position 2, and the preset sequence 2 is the preset element size of the position 24. The preset sequence 24 is the preset element size of the position 24. The preset element size is then marked with the preset dynamic parameters according to the preset sequence, that is, the click of the "enter element definition" under the "icon edit" in the middle of fig. 3 jumps to fig. 4, the preset dynamic parameter D0 is marked with the preset sequence 0 (i.e., the sequence number 0), the preset dynamic parameter D1 is marked with the preset sequence 1, the preset dynamic parameter D4 is marked with the preset sequence 2. The preset dynamic parameter R1 is marked with the preset sequence 24. In this way, the preset dynamic parameter D0 is displayed at the preset element size of the position 1, the preset dynamic parameter D1 is displayed at the preset element size of the position 2, and the preset dynamic parameter D4. is displayed at the preset element size of the position 24. In the target to-be-manufactured process diagram. After completion, fig. 5 is shown, i.e. the preset element sizes of the target to-be-manufactured process diagram are all marked by preset dynamic parameters.

Preferably, after all the preset element sizes of the target to-be-manufactured process diagram are marked by the preset dynamic parameters, a reference zero point can be set, so that each line segment and each circular arc of the target to-be-manufactured process diagram can be represented by the expression of the preset dynamic parameters to the position coordinates of the line segment and the circular arc, namely, the target to-be-manufactured process diagram is completely defined by the preset dynamic parameters. As shown on the right side of fig. 5, one line segment is represented as: start coordinates (-D0/2, H0), end coordinates (-D0/2, 0).

102. And determining a target conversion formula table of the target to-be-manufactured process diagram, wherein the target conversion formula table comprises preset dynamic parameters and target conversion formulas corresponding to the preset dynamic parameters.

103. And acquiring a drawing size value corresponding to the preset dynamic parameter, and converting the drawing size value into a sketch size value by using a target conversion formula.

In the case of the target process operation being the build-up welding, i.e., the welding, it is necessary to remove the size of the weld layer of the build-up part before the welding, and the weld is processed into a state to be welded, and therefore, it is necessary to perform a size conversion, i.e., to fill in the preset element size, a schematic size value (the schematic size value has already removed the size of the weld layer of the build-up part) converted from the drawing size value (the drawing size value has not removed the size of the weld layer of the build-up part).

Specifically, since different to-be-manufactured process diagrams have different conversion formula tables, and different preset dynamic parameters in the same conversion formula table correspond to different conversion formulas, a target conversion formula table of the target to-be-manufactured process diagram is determined, wherein the target conversion formula table comprises preset dynamic parameters and target conversion formulas corresponding to the preset dynamic parameters, and the target conversion formula is formed by performing four-rule operation and/or trigonometric function operation between a drawing size value and a process auxiliary residual value by using surfacing as an example, wherein the process auxiliary residual value comprises at least one.

For example, the process assist margin values include b=3, D0 is the half finished size of the end cap during overlay, b is the half finished margin, d0=drawing size value +2*b =1480.00+2×3= 1486.00.

104. And correspondingly filling the dimension values of the sketch into preset dynamic parameters until all the preset dynamic parameters are filled, so as to obtain the manufactured target process sketch.

For this embodiment, as an implementation manner, the filling the schematic size value into the preset dynamic parameter correspondingly includes: and arranging the diagram size values corresponding to the preset dynamic parameters according to a preset sequence, and sequentially filling the diagram size values into the preset dynamic parameters. Preferably, the target conversion formulas and drawing size values corresponding to the preset dynamic parameters are arranged according to a preset sequence, so that the diagram size values arranged according to the preset sequence can be correspondingly obtained.

As shown in table 1, the preset sequence, the preset dynamic parameters, the drawing size values and the diagram size values are arranged correspondingly.

TABLE 1

Specifically, a corresponding target to-be-manufactured process diagram is selected from the CAXA electronic chart, data editing is clicked, a format file which can be identified by the CAXA electronic chart is imported in the form of reading an external data file, for example, a txt format data table (for example, the CAXA electronic chart can be imported after the txt format data table is required to be converted into the txt format data table) is imported, and diagram size values in the data table can be automatically filled into corresponding preset dynamic parameters according to a preset sequence, and the preset dynamic parameters are replaced by specific data, so that the target process diagram is obtained.

Preferably, the target process diagram realizes a 1:1 drawing structure of drawing, provides conditions for subsequent compiling and checking of the same-reference drawing, specifically, after the target process diagram is generated, the target process diagram and the original design drawing can be checked by the same-reference drawing, and the remaining format file is combined to intuitively and conveniently compile and check whether the allowance and the size of each part of the target process diagram meet the specified requirements of the original design drawing, so that the purpose of error prevention is achieved, the correctness of the target process diagram is ensured, and the specific target process operation is guided by the target process diagram.

As another embodiment, in order to achieve standardization, normalization and consistency of the target process diagram, the content of the target process diagram to be manufactured is divided into six views, i.e. the target process diagram comprises: major block and chamfer detail piece still include: title block, roughness block and technical requirements, thereby avoiding drawing differences due to personal drawing habit and the like; correspondingly, until all preset dynamic parameters are filled into the container, a target process diagram of the manufactured container is obtained, and the method comprises the following steps: and filling all preset dynamic parameters, title blocks, roughness blocks and technical requirements into the material to obtain a finished target process diagram. As shown in fig. 3, the target process schematic further includes: roughness block (first from top to bottom on the right side of the main block), heading block (pre-weld tooling fig. 1), technical requirements (below the main block).

The application discloses a drawing method, a drawing device, a storage medium and drawing equipment, wherein a target to-be-manufactured process diagram is firstly obtained, and preset element sizes of the target to-be-manufactured process diagram are marked by preset dynamic parameters, wherein the target to-be-manufactured process diagram comprises target process operation; determining a target conversion formula table of a target to-be-manufactured process diagram, wherein the target conversion formula table comprises preset dynamic parameters and target conversion formulas corresponding to the preset dynamic parameters; obtaining a drawing size value corresponding to a preset dynamic parameter, and converting the drawing size value into a sketch size value by using a target conversion formula; and correspondingly filling the dimension values of the sketch into preset dynamic parameters until all the preset dynamic parameters are filled, so as to obtain the manufactured target process sketch. According to the technical scheme, on one hand, as the same parts in different types of centrifugal compressors have the same structure, the to-be-manufactured process sketch of each part under different process operations is drawn in advance, so that the process sketch does not need to be drawn repeatedly, only the target to-be-manufactured process sketch needs to be directly obtained from the drawn to-be-manufactured process sketch, the workload is reduced, and the drawing efficiency is improved; on the other hand, the drawing size value is converted into the diagram size value through the target conversion formula table corresponding to the target to-be-manufactured process diagram, corresponding preset dynamic parameters are automatically filled in, manual calculation is not needed, manual filling is not needed, the workload is reduced, the error rate is reduced, and the drawing efficiency is improved.

Further, as a specific implementation of the method shown in fig. 1, an embodiment of the present application provides a drawing device, as shown in fig. 2, where the device includes: the labeling module 21, the determining module 22, the converting module 23 and the filling module 24;

the labeling module 21 is configured to obtain a target to-be-manufactured process schematic, and label preset element sizes of the target to-be-manufactured process schematic with preset dynamic parameters, where the target to-be-manufactured process schematic includes a target process operation;

a determining module 22, configured to determine a target conversion formula table of the target to-be-manufactured process schematic, where the target conversion formula table includes the preset dynamic parameter and a target conversion formula corresponding to the preset dynamic parameter;

the conversion module 23 is configured to obtain a drawing size value corresponding to the preset dynamic parameter, and convert the drawing size value into a schematic drawing size value by using the target conversion formula;

and a filling module 24, configured to fill the schematic dimension value into the preset dynamic parameter correspondingly until all the preset dynamic parameters are filled, so as to obtain a manufactured target process schematic.

Correspondingly, in order to label the preset element sizes of the target to-be-manufactured process diagram by using preset dynamic parameters, the labeling module 21 is specifically configured to determine the preset element sizes to be labeled in the target to-be-manufactured process diagram, and set a preset sequence in which the preset element sizes are labeled; and marking the preset element sizes by using preset dynamic parameters according to the preset sequence.

Correspondingly, in order to fill the schematic size values into the preset dynamic parameters correspondingly, the filling module 24 may be specifically further configured to arrange the schematic size values corresponding to the preset dynamic parameters according to the preset sequence, and sequentially fill the schematic size values into the preset dynamic parameters.

Correspondingly, the target to-be-manufactured process diagram comprises the following steps: the filling module 24 may be specifically configured to fill all the preset dynamic parameters, the header block, the roughness block, and the technical requirements until all the preset dynamic parameters, the roughness block, and the technical requirements are filled, so as to obtain a completed target process diagram.

It should be noted that, for other corresponding descriptions of each functional unit related to the drawing device provided in this embodiment, reference may be made to the corresponding description of fig. 1, which is not repeated herein.

Based on the method shown in fig. 1, correspondingly, the present embodiment further provides a storage medium, which may be specifically volatile or nonvolatile, and has stored thereon computer readable instructions, where the readable instructions when executed by a processor implement the mapping method shown in fig. 1.

Based on such understanding, the technical solution of the present application may be embodied in the form of a software product, which may be stored in a storage medium (may be a CD-ROM, a U-disk, a mobile hard disk, etc.), and includes several instructions for causing a computer device (may be a personal computer, a server, or a network device, etc.) to execute the method of each implementation scenario of the present application.

Based on the method shown in fig. 1 and the virtual device embodiment shown in fig. 2, in order to achieve the above object, this embodiment further provides a computer device, which includes a storage medium and a processor; a storage medium storing a computer program; a processor for executing a computer program to implement the drawing method as described above and shown in fig. 1.

Optionally, the computer device may also include a user interface, a network interface, a camera, radio Frequency (RF) circuitry, sensors, audio circuitry, WI-FI modules, and the like. The user interface may include a Display screen (Display), an input unit such as a Keyboard (Keyboard), etc., and the optional user interface may also include a USB interface, a card reader interface, etc. The network interface may optionally include a standard wired interface, a wireless interface (e.g., WI-FI interface), etc.

It will be appreciated by those skilled in the art that the architecture of a computer device provided in this embodiment is not limited to this physical device, but may include more or fewer components, or may be combined with certain components, or may be arranged in a different arrangement of components.

The storage medium may also include an operating system, a network communication module. An operating system is a program that manages the computer device hardware and software resources described above, supporting the execution of information handling programs and other software and/or programs. The network communication module is used for realizing communication among all components in the storage medium and communication with other hardware and software in the information processing entity equipment.

From the above description of the embodiments, it will be apparent to those skilled in the art that the present application may be implemented by means of software plus necessary general hardware platforms, or may be implemented by hardware.

The application discloses a drawing method, a drawing device, a storage medium and drawing equipment, wherein a target to-be-manufactured process diagram is firstly obtained, and preset element sizes of the target to-be-manufactured process diagram are marked by preset dynamic parameters, wherein the target to-be-manufactured process diagram comprises target process operation; determining a target conversion formula table of a target to-be-manufactured process diagram, wherein the target conversion formula table comprises preset dynamic parameters and target conversion formulas corresponding to the preset dynamic parameters; obtaining a drawing size value corresponding to a preset dynamic parameter, and converting the drawing size value into a sketch size value by using a target conversion formula; and correspondingly filling the dimension values of the sketch into preset dynamic parameters until all the preset dynamic parameters are filled, so as to obtain the manufactured target process sketch. According to the technical scheme, on one hand, as the same parts in different types of centrifugal compressors have the same structure, the to-be-manufactured process sketch of each part under different process operations is drawn in advance, so that the process sketch does not need to be drawn repeatedly, only the target to-be-manufactured process sketch needs to be directly obtained from the drawn to-be-manufactured process sketch, the workload is reduced, and the drawing efficiency is improved; on the other hand, the drawing size value is converted into the diagram size value through the target conversion formula table corresponding to the target to-be-manufactured process diagram, corresponding preset dynamic parameters are automatically filled in, manual calculation is not needed, manual filling is not needed, the workload is reduced, the error rate is reduced, and the drawing efficiency is improved.

Those skilled in the art will appreciate that the drawing is merely a schematic illustration of a preferred implementation scenario and that the modules or flows in the drawing are not necessarily required to practice the application. Those skilled in the art will appreciate that modules in an apparatus in an implementation scenario may be distributed in an apparatus in an implementation scenario according to an implementation scenario description, or that corresponding changes may be located in one or more apparatuses different from the implementation scenario. The modules of the implementation scenario may be combined into one module, or may be further split into a plurality of sub-modules.

The above-mentioned inventive sequence numbers are merely for description and do not represent advantages or disadvantages of the implementation scenario. The foregoing disclosure is merely illustrative of some embodiments of the application, and the application is not limited thereto, as modifications may be made by those skilled in the art without departing from the scope of the application.

Claims (10)

1. A method of mapping, comprising:

obtaining a target to-be-manufactured process diagram, and marking preset element sizes of the target to-be-manufactured process diagram by using preset dynamic parameters, wherein the target to-be-manufactured process diagram comprises target process operation;

determining a target conversion formula table of the target to-be-manufactured process diagram, wherein the target conversion formula table comprises the preset dynamic parameters and target conversion formulas corresponding to the preset dynamic parameters;

acquiring a drawing size value corresponding to the preset dynamic parameter, and converting the drawing size value into a sketch size value by using the target conversion formula;

and correspondingly filling the dimension values of the sketch into the preset dynamic parameters until all the preset dynamic parameters are filled, so as to obtain the manufactured target process sketch.

2. The method of claim 1, wherein labeling the predetermined element sizes of the target process recipe with predetermined dynamic parameters comprises:

determining the sizes of preset elements to be marked in the target to-be-manufactured process diagram, and setting the preset sequence in which the sizes of the preset elements are marked;

and marking the preset element sizes by using preset dynamic parameters according to the preset sequence.

3. The method of claim 2, wherein the corresponding filling of the schematic size values into the predetermined dynamic parameters comprises:

and arranging the diagram size values corresponding to the preset dynamic parameters according to the preset sequence, and sequentially filling the diagram size values into the preset dynamic parameters.

4. The method of claim 1, wherein the target to-be-manufactured process schematic comprises: title block, roughness block and technical requirements;

and the step of obtaining a target process diagram after the completion of the manufacture is completed until all the preset dynamic parameters are filled, comprising the following steps:

and filling all the preset dynamic parameters, the header block, the roughness block and the technical requirements to obtain a finished target process diagram.

5. A drawing apparatus, comprising:

the marking module is used for obtaining a target to-be-manufactured process diagram and marking preset element sizes of the target to-be-manufactured process diagram by utilizing preset dynamic parameters, wherein the target to-be-manufactured process diagram comprises target process operation;

the determining module is used for determining a target conversion formula table of the target to-be-manufactured process diagram, wherein the target conversion formula table comprises the preset dynamic parameters and target conversion formulas corresponding to the preset dynamic parameters;

the conversion module is used for obtaining a drawing size value corresponding to the preset dynamic parameter, and converting the drawing size value into a sketch size value by utilizing the target conversion formula;

and the filling module is used for correspondingly filling the dimension values of the sketch into the preset dynamic parameters until all the preset dynamic parameters are filled, so as to obtain the manufactured target process sketch.

6. The apparatus of claim 5, wherein the labeling module is specifically configured to: determining the sizes of preset elements to be marked in the target to-be-manufactured process diagram, setting the preset sequence in which the sizes of the preset elements are marked, and marking the sizes of the preset elements by using preset dynamic parameters according to the preset sequence.

7. The apparatus of claim 6, wherein the fill-in module is operable to: and arranging the diagram size values corresponding to the preset dynamic parameters according to the preset sequence, and sequentially filling the diagram size values into the preset dynamic parameters.

8. The apparatus of claim 5, wherein the target to-be-manufactured process schematic comprises: title block, roughness block and technical requirements;

the filling module is specifically further configured to: and filling all the preset dynamic parameters, the header block, the roughness block and the technical requirements to obtain a finished target process diagram.

9. A storage medium having stored thereon a computer program, wherein the program when executed by a processor implements the mapping method of any one of claims 1 to 4.

10. A computer device comprising a memory, a processor and a computer program stored on the storage medium and executable on the processor, characterized in that the processor implements the cartography method according to any of claims 1 to 4 when executing the program.