TW201514920A - System and method for programming a 3d coordinates measurement using cloud server - Google Patents

Abstract

The present invention provides a system and method for Programming a 3D coordinates measurement program using a cloud server. The system is implemented by cloud server, and the cloud server connects to a plurality of programming computers and an auditing computer through a network. The cloud server generates a multi-task for programming an 3D coordinates measurement program, sends each sub-task of the multi-tasks to a corresponding to programming computer for accomplishing a sub-program of the 3D coordinates measurement program, and generates a completed 3D coordinates measurement program by integrating all of the sub-programs. The cloud server further sends the completed 3D coordinates measurement program to the auditing computer for checking the correction of the completed 3D coordinates measurement program.

Description

Three-dimensional cloud offline programming system and method

The invention relates to an offline programming system and method, in particular to a three-dimensional cloud offline programming system and method.

At present, the three-dimensional offline programming system usually introduces the CAD graphic file of the product to be measured by the programmer, and then manually scans the measurement graphic on the computer by the mouse and the keyboard according to the drawing of the size to be detected. However, for the complex part size and number of parts of the measurement pattern to be detected, for example, the programming task of more than 200 graphic parts usually requires a lot of programmers to perform distributed synchronous programming. However, by manual division of labor and synchronous programming, the programming is labor intensive, and there are technical problems such as low programming efficiency and easy programming error.

In view of the above, it is necessary to provide a three-dimensional cloud offline programming system and method, which enables multiple programmers to perform distributed synchronous offline programming on different programming computers, and to check the three-segment scalars prepared by multiple people. Test the program to complete the entire three-dimensional offline programming process quickly and accurately.

The three-dimensional cloud offline programming system runs in a cloud server, and the cloud server is connected to a plurality of programming computers and an auditing computer through a network. The system comprises: a programming and arranging module, which is configured to automatically generate a plurality of programming tasks according to the total programming size required by the product to be measured and the programming reference, and corresponding 3D graphics of the product to be measured corresponding to each programming task The file and the 2D size file are sent to the programming computer corresponding to the relevant programmer for offline programming; the programming review module is used to determine whether the programming size of each program completed by each programmer meets the requirements according to the 2D size graphic file of the product to be measured. The multiplex processing module is configured to synchronously display the color of the programming size as the first color on the programming end computer corresponding to the required programming size to update the programming task progress of the programmer, and corresponding to the programming size that does not meet the requirement The programming terminal computer synchronously displays the color of the programming size as a second color to prompt the programmer to check the programming size and rewrite the program, and integrate all the programmed programs and send them to each programming computer for each programmer to perform. Program check for writing completion; and program generation module for checking the results of all programmers Way transmission to the client computers to allow reviewers review each review test results, after receiving the audit result by the audit computer to send out the end, to be automatically generated measurement coordinate measuring program products.

The three-dimensional cloud offline programming method is applied to a cloud server, and the cloud server is connected to a plurality of programming computers and an auditing computer through a network. The method comprises the steps of: generating a plurality of programming tasks according to the total programming size required by the product to be measured and the programming reference, and sending the 3D graphics file and the 2D size file of the product to be measured corresponding to each programming task to The programming programmer corresponds to the programming computer to perform offline programming; according to the 2D size graphic file of the product to be measured, it is judged whether the programming size of each program completed by the programmer meets the requirements; and the programming end computer corresponding to the required programming size is synchronized. Displaying the color of the programming size as a first color to update the programming task progress of the programmer; synchronously displaying the color of the programming size as a second color on the programming computer corresponding to the programming size that does not meet the requirement to prompt the programmer to check Program size and rewrite the program; integrate all the completed programs and send them to each programming computer to let each programmer check the programming; write all the programmer's inspection results to the auditing computer through the network. Let the reviewer review each inspection result; when receiving the auditing computer After a review by the result, the product to be measured coordinate measurement program.

Compared with the prior art, the three-dimensional cloud offline programming system and method of the present invention can automatically arrange offline programming tasks of products to be tested to generate multiplex programming tasks, allowing multiple programmers to disperse on different programming computers. Synchronous processing of off-line programming, and through multiple people to check the completed three-seat scalar measurement program, and then complete the entire three-dimensional offline programming process quickly and accurately.

1 is a schematic diagram of an operating environment of a preferred embodiment of a three-element cloud offline programming system of the present invention.

2 is a flow chart of a preferred embodiment of the three-dimensional cloud offline programming method of the present invention.

Figure 3 is a schematic illustration of a 3D graph of a product to be measured.

Figure 4 is a schematic illustration of a 2D size pattern of a product to be measured.

Referring to FIG. 1, a schematic diagram of an operating environment of a preferred embodiment of the three-dimensional cloud offline programming system 10 of the present invention is shown. In this embodiment, the cloud offline programming system 10 is installed and runs in the cloud server 1, and the cloud server 1 further includes, but is not limited to, the storage device 11 and the processor 12. The cloud server 1 is connected to the plurality of programming computer 2 and the auditing computer 3 via the network 4. The programming computer 2 and the auditing computer 3 can be a personal computer (PC), a workstation computer or other electronic computing device. The network 4 can be an Internet or an intranet.

The cloud offline programming system 10 can automatically arrange offline programming tasks of the product to be tested to generate a multiplex programming task, and send each programming task to each programming computer 2 via the network 4 to let the programmer perform distributed programming. Simultaneously process offline programming, and integrate each programmer's programmed program into a three-spot measurement program of the product to be tested, so as to complete the entire programming process quickly and accurately. The three-dimensional cloud offline programming system 10 is also capable of transmitting a program written by each programmer to the auditing computer 3 via the network 4, allowing the reviewer to review the completed program, and completing the three-spot sizing program. It is sent to each programming computer 2 through the network 4 to let each programmer check the three scalar programs at the same time to ensure the correctness of the program.

In the embodiment, the cloud offline programming system 10 includes a graphic import module 101, a programming and dispatching module 102, a programming auditing module 103, a multiplex processing module 104, and a program generating module 105. The functional module referred to in the present invention refers to a series of program instruction segments that can be executed by the processor 12 of the cloud server 1 and can perform a fixed function, and is stored in the storage device 11 of the cloud server 1. The respective functional modules 101-105 will be described in the flow chart of FIG.

Referring to FIG. 2, it is a flowchart of a preferred embodiment of the three-dimensional cloud offline programming method of the present invention. In this embodiment, the method is applied to the cloud server 1, and the offline programming task of the product to be tested can be automatically arranged to generate a multiplex programming task, so that the plurality of programmers perform distributed synchronization processing on different programming computers 2. Offline programming, and after three people have checked and completed the three scalar measurement programs, the entire programming process is completed quickly and accurately.

In step S21, the graphic importing module 101 imports the 3D graphic file of the product to be measured and the 2D size graphic file of the product to be measured into the cloud server 1. In this embodiment, the 3D graphic of the product to be measured is shown in FIG. 3, and the 2D size graphic file of the product to be measured is shown in FIG. 4. Referring to FIG. 4, the product to be measured includes a plurality of parts to be tested, and each part to be tested is marked with a required programming size, such as a circular hole diameter Ø=53.5 mm, and a long groove width L=101.6 mm. , and the arc angle α = 106 ^o and other dimensions.

Step S22, the programming and arranging module 102 automatically generates a plurality of programming tasks according to the total required programming size and the programming reference, and sends the 2D size file and the 3D graphic file corresponding to each programming task to the corresponding programming personnel. The end computer 2 performs offline programming. In the embodiment, the programming reference refers to dividing the 2D size graphic into different size programming areas, as shown in FIG. 4, the A, B, and C programming areas, and each programmer corresponding to a size programming area for programming. . When the programmer performs offline programming on the programming computer 2, the programmer needs the measurement path program required for each programming size and the measurement program of the three coordinate machine.

Step S23, when each programmer completes the respective programming task on the programming computer 2, the programming auditing module 103 receives the programmed program through the network 4 on each programming computer 2, and writes the completed program. Automatically forwarded to the auditing computer 3 via the network 4 to allow the reviewer to review the completed program. In this embodiment, the auditor calls the program audit module 103 from the cloud server 1 on the audit terminal computer 3 to review the programmed program, for example, to check whether each programming size and the measurement path meet the requirements.

In step S24, the programming review module 103 determines whether the programming size in the program completed by each programmer meets the requirements according to the 2D size graphic file of the product to be measured. If the programming size in the program meets the requirements, step S25 is performed; if the programming size in the program does not meet the requirements, step S26 is performed.

In step S25, the multiplex processing module 104 automatically displays the color of the programming size as the first color on the programming computer 2 corresponding to the required programming size to update the programming task progress of the programmer. In this embodiment, the multiplex processing module 104 sets the first color of the programming size that meets the requirements to be green, or may be a color identifier that is used to identify that the programming size has been completed.

In step S26, the multiplex processing module 104 automatically displays the color of the programming size as a second color on the programming computer 2 corresponding to the required programming size to prompt the programmer to check the programming size and rewrite the program. In this embodiment, the multiplex processing module 104 sets the second color of the programming size that does not meet the requirements to be red, or may be a color identifier for distinguishing the programming size that has not been written.

Step S27, after all the programming tasks of the product to be measured, the multiplex processing module 104 integrates all the programmed programs, and sends the complete program to each programming computer 2 for each programmer to perform programming size requirements. Inspection, measurement path simulation and collision checking. In this embodiment, each programmer checks a completely written program, and this multi-person multiple checking mechanism ensures the correctness of the program.

In step S28, the program generation module 105 sends the inspection results of all programmers to the auditing computer 3 via the network 4, so that the reviewer can review each inspection result, and when the auditing computer 3 receives the auditing, the auditing is performed. After the result, a three-spot measurement program for the product to be measured is automatically generated.

The above is only the preferred embodiment of the present invention, and has been used in a wide range of applications. Any other equivalent conversion or modification that is not in the spirit of the present invention should be included in the following patent application. Within the scope.

1‧‧‧Cloud Server

10‧‧‧Cloud offline programming system

101‧‧‧Graphic import module

102‧‧‧Programming module

103‧‧‧Programming Audit Module

104‧‧‧Multiplex processing module

105‧‧‧Program generation module

11‧‧‧Storage equipment

12‧‧‧ Processor

2‧‧‧Programming computer

3‧‧‧ Auditing computer

4‧‧‧Network

no

1‧‧‧Cloud Server

10‧‧‧Cloud offline programming system

101‧‧‧Graphic import module

102‧‧‧Programming module

103‧‧‧Programming Audit Module

104‧‧‧Multiplex processing module

105‧‧‧Program generation module

11‧‧‧Storage equipment

12‧‧‧ Processor

2‧‧‧Programming computer

3‧‧‧ Auditing computer

4‧‧‧Network

Claims (10)

A three-dimensional cloud offline programming system runs in a cloud server, wherein the cloud server is connected to a plurality of programming computers and a review computer through a network, and the three-dimensional cloud offline programming system comprises:
The programming and arranging module is configured to automatically generate a plurality of programming tasks according to the total programming size required by the product to be measured and the programming reference, and the 3D graphics file and the 2D size of the product to be measured corresponding to each programming task The file is sent to the programming computer corresponding to the relevant programmer for offline programming;
The programming review module is configured to determine, according to the 2D size graphic file of the product to be measured, whether the programming size in the program completed by each programmer meets the requirements;
The multiplex processing module is configured to synchronously display the color of the programming size as a first color on the programming end computer corresponding to the required programming size to update the programming task progress of the programmer, corresponding to the programming size that does not meet the requirement The programming side computer synchronously displays the color of the programming size as a second color to prompt the programmer to check the programming size and rewrite the program, and integrate all the programmed programs and send them to each programming computer for each programmer to perform the pairing. Completing the program check; and the program generation module, which is used to send the inspection results of all programmers to the auditing computer through the network, so that the reviewer can review each inspection result, and send it to the computer at the auditing end. After the result of the review, the three-spot measurement program of the product to be measured is automatically generated. For example, the three-dimensional cloud offline programming system described in claim 1 of the patent scope further includes a graphic import module for importing a 3D graphic file of the product to be measured and a 2D size graphic file of the product to be measured into the cloud. In the server. For example, the three-dimensional cloud offline programming system described in claim 1 is that when each programmer completes its own programming task on the programming computer, the programming review module is also used for the network. The programming program is received by each programming computer, and the programmed program is automatically forwarded to the auditing computer through the network for the reviewer to review the completed program. The three-dimensional cloud offline programming system according to claim 1, wherein the first color is green or a color identifier for distinguishing that the programming size has been completed, and the second color is Red or a color identifier used to distinguish programming sizes that have not been written. The three-dimensional cloud offline programming system of claim 1, wherein the program check comprises performing a program size requirement check, a measurement path simulation, and a collision check. A three-dimensional cloud offline programming method is applied to a cloud server, wherein the cloud server is connected to a plurality of programming computers and a review computer by using a network, and the method comprises the steps of:
The plurality of programming tasks are automatically generated according to the total programming size required by the product to be measured and the programming reference, and the 3D graphics file and the 2D size file of the product to be measured corresponding to each programming task are sent to the relevant programmers. The programming computer is offline programmed;
Determining whether the programming size in each program completed by each programmer meets the requirements according to the 2D size graphic file of the product to be measured;
Synchronizing the color of the programming size to the first color on the programming computer corresponding to the required programming size to update the programmer's programming task progress;
Synchronizing the color of the programming size to a second color on the programming computer corresponding to the unsuitable programming size to prompt the programmer to check the programming size and rewrite the program;
Integrate all the completed programs and send them to each programming computer to let each programmer check the program completed.
Sending the results of all programmers to the auditing computer through the network, allowing the reviewer to review each inspection result; and automatically receiving the product to be measured after receiving the auditing result from the auditing computer. Three scalar measurement programs. For example, the three-dimensional cloud offline programming method described in claim 6 of the patent scope further includes the steps of:
The 3D graphic file of the product to be measured and the 2D size graphic file of the product to be measured are imported into the cloud server. For example, the three-dimensional cloud offline programming method described in claim 6 of the patent scope further includes the steps of:
When each programmer completes its own programming task on the programming computer, the program is completed by the network on each programming computer, and the programmed program is automatically forwarded to the auditing computer through the network. The reviewer reviews the completed program. The three-dimensional cloud offline programming method according to claim 6, wherein the first color is green or a color identifier for distinguishing that the programming size has been completed, and the second color is Red or a color identifier used to distinguish programming sizes that have not been written. The three-dimensional cloud offline programming method according to claim 6, wherein the program check comprises performing a program size requirement check, a measurement path simulation, and a collision check.