CN107992692B - Method and terminal for generating vehicle body measuring point file - Google Patents

Abstract

The invention provides a method and a terminal for generating a vehicle body measuring point file, wherein the method comprises the following steps: determining a target type, wherein the target type is the type of a measuring point to be created on a target assembly; on the three-dimensional model corresponding to the target assembly, creating a target vehicle body measuring point by selecting a reference element corresponding to the target type; acquiring parameters of the target vehicle body measuring point according to the reference element; and generating a measuring point file corresponding to the measuring point of the target vehicle body according to the parameters. Therefore, the measuring points are directly created on the three-dimensional model of the assembly, and the measuring point files are generated according to the created measuring point parameters, so that the error probability of the vehicle body measuring point files can be reduced, and the design efficiency of the measuring points can be improved.

Description

Method and terminal for generating vehicle body measuring point file

Technical Field

The invention relates to the technical field of automobiles, in particular to a method and a terminal for manufacturing a vehicle body measuring point file.

Background

The vehicle body measuring point file is a very important technical file in the whole vehicle development, sets the requirements of the size and the tolerance which need to be controlled in the vehicle body development, and is an important basis for matching and debugging in the whole vehicle measuring point development process. However, in the current vehicle body measuring point file, usually, an engineer measures measuring points and records various data, and then manually inputs the data through a tabulation software, so that the workload is large, and errors are very easy to occur. Therefore, errors are easy to occur in the manufacturing process of the conventional vehicle body measuring point file, and the design efficiency of the measuring point is low.

Disclosure of Invention

The embodiment of the invention aims to provide a method and a terminal for generating a vehicle body measuring point file, which solve the problem that the vehicle body measuring point file is easy to generate errors during manufacturing.

In order to achieve the above object, an embodiment of the present invention provides a method for generating a vehicle body measurement point file, including:

determining a target type, wherein the target type is the type of a measuring point to be created on a target assembly;

on the three-dimensional model corresponding to the target assembly, creating a target vehicle body measuring point by selecting a reference element corresponding to the target type;

acquiring parameters of the target vehicle body measuring point according to the reference element;

and generating a measuring point file corresponding to the measuring point of the target vehicle body according to the parameters.

An embodiment of the present invention further provides a terminal, including:

the determining module is used for determining a target type, wherein the target type is the type of a measuring point to be created on a target assembly;

the creating module is used for creating a target vehicle body measuring point on the three-dimensional model corresponding to the target assembly by selecting a reference element corresponding to the target type;

the acquisition module is used for acquiring parameters of the target vehicle body measuring point according to the reference elements;

and the generating module is used for generating a measuring point file corresponding to the measuring point of the target vehicle body according to the parameters.

In the embodiment of the invention, a target type is determined, wherein the target type is the type of a measuring point to be created on a target assembly; on the three-dimensional model corresponding to the target assembly, creating a target vehicle body measuring point by selecting a reference element corresponding to the target type; acquiring parameters of the target vehicle body measuring point according to the reference element; and generating a measuring point file corresponding to the measuring point of the target vehicle body according to the parameters. Therefore, the measuring points are directly created on the three-dimensional model of the assembly, and the measuring point files are generated according to the created measuring point parameters, so that the error probability of the vehicle body measuring point files can be reduced, and the design efficiency of the measuring points can be improved.

Drawings

FIG. 1 is a flow chart of a method for generating a vehicle body measuring point file according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a selection of sites on the hole edge of a circular hole according to an embodiment of the present invention;

FIG. 3 is a schematic view of a measurement point parameter interface according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of a batch modification interface according to an embodiment of the present invention;

FIG. 5 is a schematic diagram of a point file according to an embodiment of the present invention;

fig. 6 is a structural diagram of a terminal according to an embodiment of the present invention;

fig. 7 is a structural diagram of another terminal according to an embodiment of the present invention.

Detailed Description

In order to make the technical problems, technical solutions and advantages of the present invention more apparent, the following detailed description is given with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1, an embodiment of the present invention provides a method for generating a vehicle body measurement point file, including:

step 101, determining a target type, wherein the target type is the type of a measuring point to be created on a target assembly.

It should be noted that, because the current vehicle body measuring point file is usually made by an engineer measuring the measuring point and recording various data, and then manually inputting the data through a tabulation software, errors are very easy to occur. Therefore, software with the function of generating the vehicle body measuring point file can be designed; for example, CATIA software in which a measurement point module is designed to create measurement points to produce a vehicle body measurement point file can be developed secondarily.

The target assembly can be understood as a vehicle body assembly of which a user needs to design a measuring point; the determination of the target type can be understood as that an option for selecting the target type in software with a function of generating a vehicle body measuring point file is a leading step for creating a target measuring point. For example, the user clicks on the "hole/weld nut/weld bolt" option in the CATIA station program to determine the station that matches the option.

Optionally, the target type includes at least one of the following:

round hole, waist shape hole, square hole, profile and cut edge.

The measuring points to be designed on the vehicle body assembly are generally contained in the five types of the round holes, the waist-shaped holes, the square holes, the molded surfaces and the cut edges, so that a user can meet most design requirements by determining the five types, and the design of the vehicle body measuring points is completed more comprehensively.

And 102, creating a target vehicle body measuring point on the three-dimensional model corresponding to the target assembly by selecting a reference element corresponding to the target type.

The three-dimensional model corresponding to the target assembly can be a three-dimensional model corresponding to the target assembly, which is imported into software with a function of generating a vehicle body measuring point file; after the target type option is selected, the reference element can be directly selected on the corresponding three-dimensional model.

The creation of the target vehicle body measuring point can be understood as that the measuring point to be created is selected on the three-dimensional model by determining the reference element. For example, by selecting three points on a circular hole on a certain vehicle body assembly, the point of the circular point can be determined.

Optionally, the step of creating a target measurement point on the three-dimensional model corresponding to the target assembly by selecting a reference element corresponding to the target type includes:

if the target type is a round hole, creating a target measuring point on a three-dimensional model corresponding to the target assembly by selecting a hole edge; or, on the three-dimensional model corresponding to the target assembly, creating a target measuring point by selecting three sites positioned on the hole edge;

if the target type is a waist-shaped hole, establishing a target measuring point on a three-dimensional model corresponding to the target assembly by selecting two circular edges of the waist-shaped hole;

if the target type is a square hole, establishing a target measuring point on a three-dimensional model corresponding to the target assembly by selecting two opposite sides of the square hole;

if the target type is a molded surface, creating a target measuring point on a three-dimensional model corresponding to the target assembly by selecting a certain point on the molded surface;

and if the target type is the cut edge, creating a target measuring point on the three-dimensional model corresponding to the target assembly by selecting a certain point on the cut edge.

It should be noted that by selecting a certain point on the profile and by selecting a certain point on the cut edge, one can understand any one position point on the profile or the cut edge, for example, in the CATIA measuring point program, a user can create a measuring point by clicking a mouse on a certain point on the profile.

For example, as shown in fig. 2, a user selects three points 1 of a round hole on a certain assembly, so as to determine a round hole measuring point, thereby completing the creation of the round hole measuring point.

Therefore, different reference elements corresponding to the measuring points are selected according to different types of the measuring points to be created, so that the measuring points can be created more accurately, and the parameter data of the measuring points are more accurate.

And 103, acquiring parameters of the target vehicle body measuring point according to the reference element.

The parameter of the target vehicle body measuring point obtained according to the reference element can be understood as the parameter of the target vehicle body measuring point corresponding to the reference source calculated through the selected reference element. For example, if the selected target type is a round hole, a plurality of round holes may exist in the introduced three-dimensional model on a certain vehicle body assembly, and after the user selects a round edge of a certain round hole, the software calculates a parameter corresponding to the round edge according to the round edge.

Optionally, the step of obtaining parameters of the target measurement point according to the reference element includes:

if the target type is a round hole, acquiring the hole center coordinates and the hole diameter of the target measuring point according to the reference element;

if the target type is a waist-shaped hole, acquiring a hole center coordinate, a long diameter and a short diameter of the target measuring point according to the reference element;

if the target type is a square hole, acquiring a hole center coordinate, a long diameter and a short diameter of the target measuring point according to the reference element;

if the target type is the molded surface, acquiring the coordinates of the reference elements of the target measuring points according to the reference elements;

and if the target type is the edge cutting, acquiring the coordinates of the reference element of the target measuring point according to the reference element.

Since different types of measuring points correspond to different parameters, the parameters corresponding to the types of the measuring points to be created can be calculated according to the selected types of the measuring points to be created, so that the design requirement can be met, and the design efficiency can be improved.

Illustratively, after a user introduces three-dimensional model data of a certain vehicle body assembly into a CATIA measuring point program, clicks a hole/welding nut/welding bolt option, and selects three points on the hole edge of a certain round hole measuring point on the three-dimensional model, as shown in FIG. 3, a measuring point parameter interface is displayed, at least the hole center coordinate, the long diameter and the short diameter of the round hole measuring point are displayed on the measuring point parameter interface, and when the OK option is clicked, the round hole measuring point is successfully created, and the hole center coordinate, the long diameter, the short diameter and other parameters are stored in a database of software, so that the parameters can be called when a measuring point file is generated subsequently.

Optionally, after the step of obtaining the parameters of the target measurement point according to the reference element, the method further includes:

displaying a first interface, and receiving the setting of the characteristic parameters of the target measuring point on the first interface;

the measuring point file comprises characteristic parameters of the target measuring point.

The first interface can be understood as an interface displaying relevant parameter information of the created measuring point. The characteristic parameters can be understood as some parameter information manually input by a user; for example, as shown in fig. 2, there may be characteristic parameters such as Feature (Feature type such as hole, plane, and cut edge), Assembly (Assembly area where a station position is located), Function, Side of Car (left, middle, and right), Upr/Lwr (upper and lower deviations), Function Desc (Function description), and KPC (key Feature).

The measuring point file comprises the characteristic parameters of the target measuring point, and the generated measuring point file can be understood as containing the information of the characteristic parameters of the target measuring point.

In addition, the first interface may also be a batch modification interface, for example, when a user clicks a batch modification function after creating a series of measurement points in the CATIA measurement point program, a batch modification interface as shown in fig. 4 is displayed, and modifiable contents in the batch modification interface include: feature (Feature type such as hole, face and edge cutting), Assembly (Assembly area where measuring point position is located), Function (Function), Side of Car (left, middle and right), Upr/Lwr (upper and lower deviation), Function Desc (Function description), KPC (key Feature) and other Feature parameters. In the Name, if there are differences, the same display Name is indicated by "+" or "+". In Property, if not identical, the display is empty, the same displays information of parameters such as aperture coordinates, and the Diameter parameters of the round hole are editable; the Long Diameter, Short Diameter parameter of the kidney hole is editable.

It should be noted that once the name or parameter is changed, the names or parameters of all currently selected stations will be changed, including the custom attribute, the names displayed in the custom attribute list are the names of the attributes in all currently selected stations, if the attribute values are different or there is no attribute in the station features, the attribute value is not displayed, once the attribute value is filled, the attribute value of the changed station name has no attribute added to the attribute. New attributes may also be added, or existing attributes may be deleted. After the user finishes inputting the desired modification, finally clicking an 'OK' button to finish the modification.

Therefore, more information of the measuring point can be displayed through the input characteristic parameters, so that the measuring point can be managed more conveniently by a user, and the efficiency of designing the measuring point is higher.

And 104, generating a measuring point file corresponding to the target vehicle body measuring point according to the parameters.

The parameter generation step is to generate a measurement point file corresponding to the target vehicle body measurement point, and the measurement point file can be understood as a file containing information of parameters of all the created measurement points. For example, as shown in FIG. 5, the stations file may be a table with the parameters of all the stations created.

In the embodiment of the invention, a target type is determined, wherein the target type is the type of a measuring point to be created on a target assembly; on the three-dimensional model corresponding to the target assembly, creating a target vehicle body measuring point by selecting a reference element corresponding to the target type; acquiring parameters of the target vehicle body measuring point according to the reference element; and generating a measuring point file corresponding to the measuring point of the target vehicle body according to the parameters. Therefore, the measuring points are directly created on the three-dimensional model of the assembly, and the measuring point files are generated according to the created measuring point parameters, so that the error probability of the vehicle body measuring point files can be reduced, and the design efficiency of the measuring points can be improved.

As shown in fig. 6, an embodiment of the present invention further provides a terminal 600, including:

a determining module 601, configured to determine a target type, where the target type is a type of a measurement point to be created on a target assembly;

a creating module 602, configured to create a target vehicle body measurement point on the three-dimensional model corresponding to the target assembly by selecting a reference element corresponding to the target type;

an obtaining module 603, configured to obtain parameters of the target vehicle body measurement point according to the reference element;

and the generating module 604 is configured to generate a measurement point file corresponding to the target vehicle body measurement point according to the parameter.

Optionally, the target type includes at least one of the following:

round hole, waist shape hole, square hole, profile and cut edge.

Optionally, the creating module 602 is configured to create a target measurement point on the three-dimensional model corresponding to the target assembly by selecting a hole edge if the target type is a round hole; or, on the three-dimensional model corresponding to the target assembly, creating a target measuring point by selecting three sites positioned on the hole edge; if the target type is a waist-shaped hole, establishing a target measuring point on a three-dimensional model corresponding to the target assembly by selecting two circular edges of the waist-shaped hole; if the target type is a square hole, establishing a target measuring point on a three-dimensional model corresponding to the target assembly by selecting two opposite sides of the square hole; if the target type is a molded surface, creating a target measuring point on a three-dimensional model corresponding to the target assembly by selecting a certain point on the molded surface; and if the target type is the cut edge, creating a target measuring point on the three-dimensional model corresponding to the target assembly by selecting a certain point on the cut edge.

Optionally, the obtaining module 603 is configured to obtain, if the target type is a hole, a hole center coordinate and a hole diameter of the target measurement point according to the reference element; if the target type is a waist-shaped hole, acquiring a hole center coordinate, a long diameter and a short diameter of the target measuring point according to the reference element; if the target type is a square hole, acquiring a hole center coordinate, a long diameter and a short diameter of the target measuring point according to the reference element; if the target type is the molded surface, acquiring the coordinates of the reference elements of the target measuring points according to the reference elements; and if the target type is the edge cutting, acquiring the coordinates of the reference element of the target measuring point according to the reference element.

Optionally, as shown in fig. 7, the terminal 600 further includes:

a display module 605, configured to display a first interface, where the first interface receives a setting of a characteristic parameter of the target measurement point;

the measuring point file comprises characteristic parameters of the target measuring point.

The terminal 600 can implement each process implemented by the terminal in the method embodiment of fig. 1, and is not described herein again to avoid repetition.

According to the terminal 600 provided by the embodiment of the invention, the measuring points are directly created on the three-dimensional model of the assembly, and the measuring point files are generated according to the created measuring point parameters, so that the error probability of the vehicle body measuring point files can be reduced, and the design efficiency of the measuring points can be improved.

While the foregoing is directed to the preferred embodiment of the present invention, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (6)

1. A generation method of a vehicle body measuring point file is characterized by comprising the following steps:

determining a target type, wherein the target type is the type of a measuring point to be created on a target assembly;

on the three-dimensional model corresponding to the target assembly, creating a target vehicle body measuring point by selecting a reference element corresponding to the target type;

acquiring parameters of the target vehicle body measuring point according to the reference element;

generating a measuring point file corresponding to the measuring point of the target vehicle body according to the parameters;

the target type includes at least one of:

round holes, waist-shaped holes, square holes, molded surfaces and cut edges;

the step of creating a target vehicle body measuring point on the three-dimensional model corresponding to the target assembly by selecting the reference element corresponding to the target type comprises the following steps:

if the target type is a round hole, creating a target measuring point on a three-dimensional model corresponding to the target assembly by selecting a hole edge; or, on the three-dimensional model corresponding to the target assembly, creating a target measuring point by selecting three sites positioned on the hole edge;

if the target type is a waist-shaped hole, establishing a target measuring point on a three-dimensional model corresponding to the target assembly by selecting two circular edges of the waist-shaped hole;

if the target type is a square hole, establishing a target measuring point on a three-dimensional model corresponding to the target assembly by selecting two opposite sides of the square hole;

if the target type is a molded surface, creating a target measuring point on a three-dimensional model corresponding to the target assembly by selecting a certain point on the molded surface;

and if the target type is the cut edge, creating a target measuring point on the three-dimensional model corresponding to the target assembly by selecting a certain point on the cut edge.

2. The method of claim 1, wherein the step of obtaining the parameters of the target measuring point according to the reference element comprises:

if the target type is a hole, acquiring a hole center coordinate and a hole diameter of the target measuring point according to the reference element;

if the target type is a waist-shaped hole, acquiring a hole center coordinate, a long diameter and a short diameter of the target measuring point according to the reference element;

if the target type is a square hole, acquiring a hole center coordinate, a long diameter and a short diameter of the target measuring point according to the reference element;

if the target type is the molded surface, acquiring the coordinates of the reference elements of the target measuring points according to the reference elements;

and if the target type is the edge cutting, acquiring the coordinates of the reference element of the target measuring point according to the reference element.

3. The method of claim 1, wherein after the step of obtaining the parameters of the target measurement point from the reference element, the method further comprises:

displaying a first interface, and receiving the setting of the characteristic parameters of the target measuring point on the first interface;

the measuring point file comprises characteristic parameters of the target measuring point.

4. A terminal, comprising:

the determining module is used for determining a target type, wherein the target type is the type of a measuring point to be created on a target assembly;

the creating module is used for creating a target vehicle body measuring point on the three-dimensional model corresponding to the target assembly by selecting a reference element corresponding to the target type;

the acquisition module is used for acquiring parameters of the target vehicle body measuring point according to the reference elements;

the generating module is used for generating a measuring point file corresponding to the measuring point of the target vehicle body according to the parameters;

the target type includes at least one of:

round holes, waist-shaped holes, square holes, molded surfaces and cut edges;

the creating module is used for creating a target measuring point on the three-dimensional model corresponding to the target assembly by selecting a hole edge if the target type is a round hole; or, on the three-dimensional model corresponding to the target assembly, creating a target measuring point by selecting three sites positioned on the hole edge;

if the target type is a waist-shaped hole, establishing a target measuring point on a three-dimensional model corresponding to the target assembly by selecting two circular edges of the waist-shaped hole;

if the target type is a square hole, establishing a target measuring point on a three-dimensional model corresponding to the target assembly by selecting two opposite sides of the square hole;

if the target type is a molded surface, creating a target measuring point on a three-dimensional model corresponding to the target assembly by selecting a certain point on the molded surface;

and if the target type is the cut edge, creating a target measuring point on the three-dimensional model corresponding to the target assembly by selecting a certain point on the cut edge.

5. The terminal of claim 4, wherein the obtaining module is configured to obtain, if the target type is a hole, a hole center coordinate and a hole diameter of the target measurement point according to the reference element;

if the target type is a waist-shaped hole, acquiring a hole center coordinate, a long diameter and a short diameter of the target measuring point according to the reference element;

if the target type is a square hole, acquiring a hole center coordinate, a long diameter and a short diameter of the target measuring point according to the reference element;

if the target type is the molded surface, acquiring the coordinates of the reference elements of the target measuring points according to the reference elements;

and if the target type is the edge cutting, acquiring the coordinates of the reference element of the target measuring point according to the reference element.

6. The terminal of claim 4, further comprising:

the display module is used for displaying a first interface, and receiving the setting of the characteristic parameters of the target measuring point on the first interface;

the measuring point file comprises characteristic parameters of the target measuring point.

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