CN113686279B - Dimension measurement data visualization method and system - Google Patents

Abstract

The invention provides a method and a system for visualizing dimension measurement data, and belongs to the technical field of dimension measurement. The method comprises the following steps: the whole vehicle DTS intelligent processing system receives the size measurement information and the standard measurement information, compiles corresponding coding information according to the standard measurement information and forwards the coding information to the mobile terminal; the mobile terminal receives the dimension measurement information and the coding information, and the measuring equipment measures the measuring point data according to the dimension measurement information; the mobile terminal records the measuring point data according to the coding information to form coding measuring point information, and sends the coding measuring point information to the DTS intelligent processing system of the whole vehicle; and the whole vehicle DTS intelligent processing system generates a measurement result report according to the coded measurement point information and sends the measurement result report to the mobile terminal and the visualization equipment of the downstream production unit. The size measurement data visualization method and the size measurement data visualization system can realize sufficient sharing of measurement results and improve measurement efficiency.

Description

Dimension measurement data visualization method and system

Technical Field

The invention belongs to the technical field of dimension measurement, and particularly relates to a dimension measurement data visualization method and a dimension measurement data visualization system.

Background

Currently, in the automotive industry, measuring the DTS (DTS-Dimension Technical Specifications, i.e. the dimensional technical specification) of the whole automobile includes the design requirements of gaps and surface differences among parts of the whole automobile interior appearance, i.e. the DTS of the whole automobile with interior and exterior decoration, and the following two measurement modes are commonly used in the prior art:

1. manual measurement, manual input and output: the measurement mode is that after the manual field measurement is completed, the manual record is recorded in a paper form, the statistics is performed in a manual key-in computer after the measurement field is waited to be completed, the occupied time is very long, and 2 working days are needed from the beginning of the measurement to the end of the statistics.

2. Scanning and measuring: the measurement mode has certain limitation in the scanning measurement by a machine, only a part of the DTS of the appearance can be measured, the DTS of the whole vehicle can not be comprehensively measured, the measurement range only accounts for 10% of the measurement requirement, and the application range is very small due to the certain limitation of the measurement mode.

The first measurement mode currently occupies 90%, the second measurement mode currently occupies 10%, and the measurement information results of the two measurement modes cannot be timely disclosed to customers, so that customer requirements complain greatly.

Disclosure of Invention

It is an object of a first aspect of the present invention to provide a method for visualizing dimension measurement data, enabling a sufficient sharing of measurement results.

It is a further object of the invention to further improve the efficiency of the size measurement.

It is an object of the second aspect of the present invention to provide a dimension measurement data visualization system that enables a sufficient sharing of measurement results.

In particular, the invention provides a dimension measurement data visualization method, which is used for performing visualization processing on measurement point data measured by measurement equipment through a whole vehicle DTS intelligent processing system and a mobile terminal, and comprises the following steps:

the whole vehicle DTS intelligent processing system receives size measurement information and standard measurement information;

the whole vehicle DTS intelligent processing system compiles corresponding coding information according to the standard measurement information and forwards the coding information to the mobile terminal;

the mobile terminal receives the size measurement information and the coding information sent by the whole vehicle DTS intelligent processing system and measuring point data measured by the measuring equipment according to the size measurement information;

the mobile terminal records the measuring point data according to the coding information to form coding measuring point information, and sends the coding measuring point information to the whole vehicle DTS intelligent processing system;

and the whole vehicle DTS intelligent processing system generates a measurement result report according to the coded measuring point information and sends the measurement result report to the mobile terminal and the visualization equipment of the downstream production unit so as to display the measurement result report on the mobile terminal and the visualization equipment of the downstream production unit.

Optionally, the dimension measurement information includes regular measurement object information, special measurement object information of the downstream production unit, and special requirement characteristic information.

Optionally, before the step of receiving the size measurement information sent by the whole vehicle DTS intelligent processing system, the mobile terminal further includes:

and the whole vehicle DTS intelligent processing system generates corresponding special-need measurement information according to the special-need characteristic information of the downstream production unit.

Optionally, the step of forwarding the encoded information to the mobile terminal by the whole vehicle DTS intelligent processing system includes:

and the whole vehicle DTS intelligent processing system sends the size measurement information of the relevant category to the mobile terminal according to the current measurement stage.

Optionally, after the step of receiving the size measurement information and the coding information sent by the whole vehicle DTS intelligent processing system, the mobile terminal further includes:

and the mobile terminal displays the dimension measurement information so that a worker can operate the corresponding measurement equipment to measure according to the dimension measurement information.

Optionally, after the step of receiving the size measurement information and the coding information sent by the whole vehicle DTS intelligent processing system, the mobile terminal further includes:

and the mobile terminal sends the dimension measurement information to the measurement equipment so that the measurement equipment can automatically measure corresponding measuring points.

Optionally, the coded information includes the whole car number, theoretical value, tolerance, measurement unit, measurement time, measurement personnel and statistics.

Optionally, the step of generating the measurement result report by the whole vehicle DTS intelligent processing system according to the encoded measurement point information includes:

and the whole-vehicle DTS intelligent processing system sorts the coded measuring point information according to a production platform, a vehicle type and a project code number to generate the measuring result report.

In particular, the invention also provides a dimension measurement data visualization system for performing visualization processing on measurement point data measured by measurement equipment, the visualization system comprising:

the whole-vehicle DTS intelligent processing system is used for receiving the dimension measurement information and the standard measurement information, compiling corresponding coding information according to the standard measurement information and forwarding the coding information to the mobile terminal;

the mobile terminal is connected with the whole-vehicle DTS intelligent processing system and is used for receiving the size measurement information and the coding information sent by the whole-vehicle DTS intelligent processing system and measuring point data measured by the measuring equipment according to the size measurement information, recording the measuring point data according to the coding information to form coded measuring point information, and sending the coded measuring point information to the whole-vehicle DTS intelligent processing system, so that the whole-vehicle DTS intelligent processing system generates a measuring result report according to the coded measuring point information and sends the measuring result report to the mobile terminal and the visual equipment of the downstream production unit, and the measuring result report is displayed on the mobile terminal and the visual equipment of the downstream production unit.

Optionally, the whole vehicle DTS intelligent processing system is further connected to the downstream production unit, and is further configured to send the size measurement information of the relevant category to the mobile terminal according to the current measurement stage, where the size measurement information includes conventional measurement object information, special measurement object information of the downstream production unit, and special requirement characteristic information.

The mobile equipment receives the size measurement information and the coding information of the whole vehicle DTS intelligent processing system on one hand, receives the measurement point data measured by the measurement equipment on the other hand, performs standardized recording on the measurement point data according to the coding information to form coded measurement point information, sends the coded measurement point information back to the whole vehicle DTS intelligent processing system, generates a corresponding measurement result report by the whole vehicle DTS intelligent processing system, and forwards the measurement result report to the visualization equipment of the mobile terminal and the downstream production unit, so that the measurement data at the mobile terminal and the downstream production unit are visualized, and related personnel can conveniently check the measurement data in time, thereby realizing full sharing of the measurement result.

Further, since the acquisition and processing of the measurement data are performed by the automated equipment, the measurement efficiency is improved compared to manual measurement.

Furthermore, as the measurement data are transmitted through the information among the mobile terminal, the whole vehicle DTS intelligent processing system and the downstream production unit, the problem that the input data are invalid due to manual input is avoided, and the correct transmission of the data is ensured.

The above, as well as additional objectives, advantages, and features of the present invention will become apparent to those skilled in the art from the following detailed description of a specific embodiment of the present invention when read in conjunction with the accompanying drawings.

Drawings

Some specific embodiments of the invention will be described in detail hereinafter by way of example and not by way of limitation with reference to the accompanying drawings. The same reference numbers will be used throughout the drawings to refer to the same or like parts or portions. It will be appreciated by those skilled in the art that the drawings are not necessarily drawn to scale. In the accompanying drawings:

FIG. 1 is a flow chart of a method of visualizing sizing data in accordance with an embodiment of the invention;

FIG. 2 is a flow chart of a method of visualizing sizing data in accordance with another embodiment of the invention;

FIG. 3 is a visualization block diagram of a method of visualizing sizing data in accordance with an embodiment of the present invention;

FIG. 4 is a connection block diagram of a sizing data visualization system according to one embodiment of the invention;

FIG. 5 is a schematic diagram of a sizing data visualization system according to one embodiment of the invention.

Detailed Description

FIG. 1 is a flow chart of a method of visualizing sizing data in accordance with an embodiment of the invention. The invention provides a dimension measurement data visualization method, which is used for carrying out visualization processing on measurement point data measured by a measurement device 40 through a whole vehicle DTS intelligent processing system 10 and a mobile terminal 20, wherein the mobile terminal 20 can be a mobile phone, a pad and the like. As shown in fig. 1, in one embodiment, the method includes:

in step S100, the whole DTS intelligent processing system 10 receives the size measurement information and the standard measurement information. The dimensional measurement information may be measurement point information corresponding to dimensional parameters such as a gap and a surface difference between the two members.

In step S200, the whole DTS intelligent processing system 10 compiles corresponding coding information according to the standard measurement information and forwards the coding information to the mobile terminal 20. The encoded information is used for the data storage format of the same subsequent measuring point.

In step S300, the mobile terminal 20 receives the dimension measurement information and the coding information sent by the DTS intelligent processing system 10 of the whole vehicle and the measurement point data measured by the measurement device 40 according to the dimension measurement information.

In step S400, the mobile terminal 20 records the measurement point data according to the encoded information to form encoded measurement point information, and sends the encoded measurement point information to the whole DTS intelligent processing system 10.

In step S500, the whole DTS intelligent processing system 10 generates a measurement report according to the encoded measurement point information, and sends the measurement report to the visualization devices of the mobile terminal 20 and the downstream production unit 30, so as to display the measurement report on the visualization devices of the mobile terminal 20 and the downstream production unit 30. The downstream production unit 30 may be a downstream manufacturing unit, an assembly unit, etc., and for example, for a vehicle, the downstream production unit 30 may be an engine assembly unit, i.e., an assembly link in an assembly shop.

In this embodiment, the mobile device receives the dimension measurement information and the coding information of the whole DTS intelligent processing system 10 on the one hand, and receives the measurement point data measured by the measurement device 40 on the other hand, and then performs normalized recording on the measurement point data according to the coding information, so as to form coded measurement point information and send the coded measurement point information back to the whole DTS intelligent processing system 10, and the whole DTS intelligent processing system 10 generates a corresponding measurement result report, and forwards the measurement result report to the visualization devices of the mobile terminal 20 and the downstream production unit 30, so that the visualization of the measurement data at the mobile terminal 20 and the downstream production unit 30 is realized, the measurement data can be conveniently and timely checked by related personnel, and the full sharing of the measurement result is realized.

Further, since the acquisition and processing of the measurement data are performed by the automated equipment, the measurement efficiency is improved compared to manual measurement. Experiments prove that two people are needed for measuring the DTS of the whole car in the past, and the efficiency is improved by 50% only by one person for one day when the scheme is adopted to change the DTS of the whole car into the DTS of the whole car.

Further, as the measurement data are transmitted through the information in the mobile terminal 20, the whole vehicle DTS intelligent processing system 10 and the downstream production unit 30, the problem that the input data are invalid due to manual input is avoided, and correct transmission of the data is ensured.

In one embodiment, the dimensional measurement information includes regular measurement object information, special measurement object information of the downstream production unit 30, and special requirement characteristic information. Conventional measurement object information, i.e. objects that typically need to be measured, or industry measurement standards, are necessary data to verify whether a vehicle is qualified or not. The specific measurement object information of the downstream production unit 30 is a measurement object specifically proposed by the downstream production unit 30, for example, the engine assembling unit adds one or some measurement objects to the whole vehicle at the relevant position where the engine is installed. The special characteristic information of the downstream production unit 30 is some characteristic information, not is direct measurement object information, and a certain conversion is needed to correspond to the measurement object, for example, a certain piece of radian is specified, so that several measuring points can be set on the piece correspondingly, the radian can be calculated by measuring the positions of the measuring points, and the measuring points and the position information thereof are the measurement objects.

The present embodiment can meet the customization requirement of the dimension measurement, and can perform special measurement according to the requirement of the downstream production unit 30 for different vehicle types.

Fig. 2 is a flow chart of a method of visualizing sizing data in accordance with another embodiment of the invention. In another embodiment, as shown in fig. 2, step S300 further includes:

in step S250, the whole DTS intelligent processing system 10 generates corresponding special-purpose measurement information according to the special-purpose characteristic information of the downstream production unit 30.

As before, since the special-purpose characteristic information of the downstream production unit 30 cannot directly guide the measurement of the measurement device 40, a process conversion is required, and here, the special-purpose measurement information is generated by the whole DTS intelligent processing system 10, so that the data received by the mobile terminal 20 can be directly used for guiding the measurement device 40 to perform measurement, and no data operation is required, thereby reducing the processing capability requirement of the mobile terminal 20.

As shown in fig. 2, in a further embodiment, step S200 includes:

in step S260, the whole DTS intelligent processing system 10 transmits the relevant kinds of dimension measurement information to the mobile terminal 20 according to the current measurement stage. Of course, this step also simultaneously transmits the encoded information to the mobile terminal 20.

Since different size measurement information is generated based on different requirements, it may occur in different measurement stages, for example, when the vehicle is not equipped with the engine, corresponding measurement needs to be performed according to special measurement object information of the engine assembly unit, and before the whole vehicle leaves the factory, measurement of the whole vehicle needs to be performed according to conventional measurement object information, so long as the mobile terminal 20 obtains corresponding kinds of size measurement information in the corresponding measurement stages. And the measurement requirements of the downstream production unit 30 may also change dynamically, which may result in resource waste due to data update if all are sent to the mobile terminal 20 before the first measurement.

In one embodiment, as shown in fig. 2, step S300 includes step S302, step S304, and step S308.

In step S302, the mobile terminal 20 receives the size measurement information and the code information.

In step S304, the mobile terminal 20 displays the size measurement information so that the worker operates the corresponding measuring device 40 according to the size measurement information to perform measurement. That is, in this embodiment, the data of the measurement device 40 is manually input into the mobile terminal 20, in which case the measurement device 40 is often a handheld device, and some handheld devices do not have the information sharing function, and the conventional method is manually recorded on paper. The embodiment is based on the movement convenience and the input convenience of the mobile terminal 20, for example, the corresponding APP is set to provide an input interface matched with the measurement data, so that the data input can be completed quickly, and the manageability and the sharability of the data are ensured.

In step S308, the mobile terminal 20 receives the measurement point data.

In another embodiment, as shown in fig. 2, step S304 of the above embodiment is replaced by step S306, and the mobile terminal 20 sends the dimension measurement information to the measurement device 40, so that the measurement device 40 automatically measures the corresponding measurement point.

The measuring device 40 in this embodiment is an automatic measuring device 40, and such a device can output the measured data, so that the measured data can be directly sent to the mobile terminal 20, so that the efficiency is high.

The coded information includes the number of the whole vehicle, theoretical value, tolerance, measurement unit, measurement time, measurement personnel and statistical result. The above elements are used as labels to record data of each measuring point, and the statistical result can be a statistical result of a plurality of data of one measuring point, for example, an average value is obtained.

Fig. 3 is a visualization block diagram of a method of visualizing sizing data in accordance with an embodiment of the invention. As shown in fig. 2, in one embodiment, step S500 includes:

in step S502, the whole vehicle DTS intelligent processing system 10 collates the coded measurement point information according to the production platform, the vehicle model and the project code number to generate a measurement result report. As shown in fig. 3, the measurement point information may be organized in the structure of fig. 3, and a user viewing the data may open a directory step by step to find the corresponding measurement point data.

FIG. 4 is a connection block diagram of a sizing data visualization system according to one embodiment of the invention. FIG. 5 is a schematic diagram of a sizing data visualization system according to one embodiment of the invention. The invention also provides a dimension measurement data visualization system, which is used for performing visualization processing on the measurement point data measured by the measurement equipment 40. As shown in fig. 4, and referring also to fig. 5, in one embodiment, the visualization system includes a whole vehicle DTS intelligent processing system 10 and a mobile terminal 20. The whole vehicle DTS intelligent processing system 10 is configured to receive the dimension measurement information and the standard measurement information, compile corresponding code information according to the standard measurement information, and forward the code information to the mobile terminal 20. The mobile terminal 20 is connected to the whole DTS intelligent processing system 10, and is configured to receive the dimension measurement information and the coding information sent by the whole DTS intelligent processing system 10, and the measurement point data measured by the measurement device 40 according to the dimension measurement information, and the mobile terminal 20 is further configured to record the measurement point data according to the coding information to form coded measurement point information, and send the coded measurement point information to the whole DTS intelligent processing system 10, so that the whole DTS intelligent processing system 10 generates a measurement result report according to the coded measurement point information, and sends the measurement result report to the mobile terminal 20 and the visual devices of the downstream production unit 30, so that the measurement result report is displayed on the mobile terminal 20 and the visual devices of the downstream production unit 30.

In this embodiment, the mobile device receives the dimension measurement information and the coding information of the whole DTS intelligent processing system 10 on the one hand, and receives the measurement point data measured by the measurement device 40 on the other hand, and then performs normalized recording on the measurement point data according to the coding information, so as to form coded measurement point information and send the coded measurement point information back to the whole DTS intelligent processing system 10, and the whole DTS intelligent processing system 10 generates a corresponding measurement result report, and forwards the measurement result report to the visualization devices of the mobile terminal 20 and the downstream production unit 30, so that the visualization of the measurement data at the mobile terminal 20 and the downstream production unit 30 is realized, the measurement data can be conveniently and timely checked by related personnel, and the full sharing of the measurement result is realized.

Further, since the acquisition and processing of the measurement data are performed by the automated equipment, the measurement efficiency is improved compared to manual measurement.

Further, as the measurement data are transmitted through the information in the mobile terminal 20, the whole vehicle DTS intelligent processing system 10 and the downstream production unit 30, the problem that the input data are invalid due to manual input is avoided, and correct transmission of the data is ensured.

In another embodiment, as shown in fig. 5, the whole DTS intelligent processing system 10 is further connected to the downstream production unit 30, and the whole DTS intelligent processing system 10 is further configured to send relevant kinds of dimension measurement information to the mobile terminal 20 according to the current measurement stage, where the dimension measurement information includes conventional measurement object information, special measurement object information of the downstream production unit 30, and special requirement characteristic information. Conventional measurement object information, i.e. objects that typically need to be measured, or industry measurement standards, are necessary data to verify whether a vehicle is qualified or not. The specific measurement object information of the downstream production unit 30 is a measurement object specifically proposed by the downstream production unit 30, for example, the engine assembling unit adds one or some measurement objects to the whole vehicle at the relevant position where the engine is installed. The special characteristic information of the downstream production unit 30 is some characteristic information, not is direct measurement object information, and a certain conversion is needed to correspond to the measurement object, for example, a certain piece of radian is specified, so that several measuring points can be set on the piece correspondingly, the radian can be calculated by measuring the positions of the measuring points, and the measuring points and the position information thereof are the measurement objects. Therefore, before the whole DTS intelligent processing system 10 is further configured to send the related kinds of dimension measurement information to the mobile terminal 20 according to the current measurement stage, the whole DTS intelligent processing system 10 is further required to generate corresponding special measurement information according to the special characteristic information of the downstream production unit 30.

In one embodiment, the encoded information includes the whole car number, theoretical value, tolerance, unit of measurement, time of measurement, personnel of measurement, and statistics.

In one embodiment, the mobile terminal 20 is further configured to display the dimension measurement information so that a worker may operate the corresponding measurement device 40 to perform the measurement according to the dimension measurement information.

In another embodiment, the mobile terminal 20 is further configured to send the dimension measurement information to the measurement device 40, so that the measurement device 40 automatically measures the corresponding measurement point.

In one embodiment, as shown in fig. 3, the whole vehicle DTS intelligent processing system 10 sorts the coded measurement point information according to the production platform, the vehicle type and the project code number to generate a measurement result report.

By now it should be appreciated by those skilled in the art that while a number of exemplary embodiments of the invention have been shown and described herein in detail, many other variations or modifications of the invention consistent with the principles of the invention may be directly ascertained or inferred from the present disclosure without departing from the spirit and scope of the invention. Accordingly, the scope of the present invention should be understood and deemed to cover all such other variations or modifications.

Claims (10)

1. The utility model provides a dimension measurement data visualization method for carry out visual processing to the measurement station data that measuring equipment measured through whole car DTS intelligent processing system and mobile terminal, its characterized in that, the method includes:

the whole vehicle DTS intelligent processing system receives size measurement information and standard measurement information;

the whole vehicle DTS intelligent processing system compiles corresponding coding information according to the standard measurement information and forwards the coding information to the mobile terminal;

the mobile terminal receives the size measurement information and the coding information sent by the whole vehicle DTS intelligent processing system and measuring point data measured by the measuring equipment according to the size measurement information;

the mobile terminal records the measuring point data according to the coding information to form coding measuring point information, and sends the coding measuring point information to the whole vehicle DTS intelligent processing system;

and the whole vehicle DTS intelligent processing system generates a measurement result report according to the coded measuring point information and sends the measurement result report to the mobile terminal and the visualization equipment of the downstream production unit so as to display the measurement result report on the mobile terminal and the visualization equipment of the downstream production unit.

2. A method of visualizing dimension measurement data as in claim 1, wherein,

the dimension measurement information includes regular measurement object information, special measurement object information of the downstream production unit, and special requirement characteristic information.

3. The method for visualizing the dimension measurement data as recited in claim 2, wherein the step of the mobile terminal receiving the dimension measurement information sent by the whole vehicle DTS intelligent processing system further comprises:

and the whole vehicle DTS intelligent processing system generates corresponding special-need measurement information according to the special-need characteristic information of the downstream production unit.

4. A method of visualizing data for a dimension as in claim 3, wherein the step of the whole vehicle DTS intelligent processing system forwarding the encoded information to the mobile terminal comprises:

and the whole vehicle DTS intelligent processing system sends the size measurement information of the relevant category to the mobile terminal according to the current measurement stage.

5. The method for visualizing the dimension measurement data as in any one of claims 1-4, wherein the step of the mobile terminal receiving the dimension measurement information and the encoded information sent by the whole vehicle DTS intelligent processing system further comprises:

and the mobile terminal displays the dimension measurement information so that a worker can operate the corresponding measurement equipment to measure according to the dimension measurement information.

6. The method for visualizing the dimension measurement data as in any one of claims 1-4, wherein the step of the mobile terminal receiving the dimension measurement information and the encoded information sent by the whole vehicle DTS intelligent processing system further comprises:

and the mobile terminal sends the dimension measurement information to the measurement equipment so that the measurement equipment can automatically measure corresponding measuring points.

7. A method of visualizing dimension measurement data as in claim 1, wherein,

the coded information comprises the whole car number, a theoretical value, a tolerance, a measurement unit, measurement time, measurement personnel and a statistical result.

8. The method of visualizing the dimensional measurement data of claim 1, wherein the step of the whole vehicle DTS intelligent processing system generating a measurement report from the encoded site information comprises:

and the whole-vehicle DTS intelligent processing system sorts the coded measuring point information according to a production platform, a vehicle type and a project code number to generate the measuring result report.

9. A dimension measurement data visualization system for performing visualization processing on measurement point data measured by measurement equipment, the visualization system comprising:

the whole-vehicle DTS intelligent processing system is used for receiving the dimension measurement information and the standard measurement information, compiling corresponding coding information according to the standard measurement information and forwarding the coding information to the mobile terminal;

the mobile terminal is connected with the whole-vehicle DTS intelligent processing system and is used for receiving the size measurement information and the coding information sent by the whole-vehicle DTS intelligent processing system and measuring point data measured by the measuring equipment according to the size measurement information, recording the measuring point data according to the coding information to form coded measuring point information, and sending the coded measuring point information to the whole-vehicle DTS intelligent processing system, so that the whole-vehicle DTS intelligent processing system generates a measuring result report according to the coded measuring point information and sends the measuring result report to the mobile terminal and the visual equipment of the downstream production unit, and the measuring result report is displayed on the mobile terminal and the visual equipment of the downstream production unit.

10. The sizing data visualization system of claim 9, wherein,

the whole-vehicle DTS intelligent processing system is further connected with the downstream production unit, and is further used for sending relevant size measurement information to the mobile terminal according to the current measurement stage, wherein the size measurement information comprises conventional measurement object information, special measurement object information of the downstream production unit and special requirement characteristic information.