CN111861148A - XML-based three-dimensional inspection procedure transfer method and system - Google Patents

Abstract

The invention discloses a three-dimensional inspection procedure transfer method and a three-dimensional inspection procedure transfer system based on XML. The XML-based three-dimensional inspection procedure transfer method comprises the following steps: acquiring main data information of the three-dimensional inspection procedure, and creating a main file of the three-dimensional inspection procedure based on XML according to the main data information; deploying a file push service; establishing an association link; creating a three-dimensional inspection procedure main file and an associated link deployment three-dimensional inspection procedure analysis interface by XML; and according to the deployment file pushing service, the inspection execution system of the process to be inspected calls a three-dimensional inspection procedure analysis interface to obtain structured three-dimensional inspection procedure information. The invention can improve the efficiency and convenience of information transmission.

Description

XML-based three-dimensional inspection procedure transfer method and system

Technical Field

The invention relates to the technical field of digital inspection, in particular to a three-dimensional inspection procedure transmission method and a three-dimensional inspection procedure transmission system based on EXtensible markup language (XML).

Background

In a complex product manufacturing enterprise, inspection businesses often run through each process in the whole product manufacturing process, so that inspection rules serving as the basis of the inspection businesses need to be transmitted under a plurality of business environments to support inspection activities of each link. In addition, as the three-dimensional digital inspection technology is continuously developed, the inspection protocol is also being converted from the conventional format to the three-dimensional inspection protocol format. The information amount in the three-dimensional inspection procedure is large and complicated, the data structure difference of various types of information is large, and the various types of information have complex association relation. The existing test procedure transmission method mainly adopts a mode of parallel transmission of various information carriers, so that the transmission path and the technical interface of the three-dimensional test procedure between different systems are complex and have no universality; in addition, when the amount of transmitted files, information, and data is large, the requirement for the transmission path is also high. Therefore, the existing inspection procedure transmission method has the problems of inconvenient transmission and low information transmission efficiency.

Disclosure of Invention

Accordingly, there is a need for a method and a system for transmitting three-dimensional inspection procedures based on XML to improve the efficiency and convenience of information transmission.

In order to achieve the purpose, the invention provides the following scheme:

an XML-based three-dimensional inspection protocol transfer method comprises the following steps:

acquiring main data information of a three-dimensional inspection procedure, and creating a main file of the three-dimensional inspection procedure based on XML according to the main data information; the three-dimensional inspection regulation main data information comprises three-dimensional inspection regulation information, work order number information, inspection characteristic information, three-dimensional marking information related to inspection characteristics, geometric characteristics related to inspection characteristics and inspection view information corresponding to the inspection characteristics;

deploying a file push service;

establishing an association link; the associated links comprise an associated link of the three-dimensional inspection procedure main file and a lightweight model file, an associated link of the three-dimensional inspection procedure main file and a picture under a three-dimensional inspection procedure directory and an associated link of the three-dimensional inspection procedure main file and a reference file in a three-dimensional inspection procedure;

creating a three-dimensional inspection procedure master file and the associated link deployment three-dimensional inspection procedure parsing interface from the XML;

And according to the deployment file pushing service, the inspection execution system of the process to be inspected calls the three-dimensional inspection procedure analysis interface to obtain structured three-dimensional inspection procedure information.

Optionally, the obtaining of the main data information of the three-dimensional inspection procedure and creating the main file of the three-dimensional inspection procedure based on XML according to the main data information specifically include:

acquiring a root element of a three-dimensional inspection procedure by using a CATIDescrendant interface of the CATIA, and reading information of the three-dimensional inspection procedure; the three-dimensional inspection procedure information comprises an ID, a name, a version, a model name and a model version of the three-dimensional inspection procedure;

creating an XML file, creating a root node 3DIP, creating an attribute for the root node 3DIP to obtain the attribute of the root node 3DIP, and assigning the attribute of the root node 3DIP by adopting the three-dimensional inspection procedure information; the attributes of the root node 3DIP include an ID attribute, a name attribute, a version attribute, a model name attribute and a model version attribute of a three-dimensional inspection procedure;

acquiring the work sequence number information of all the processes to be checked, creating a child node STEP for each process under the root node 3DIP, and assigning values to the attributes of the child node STEPs by adopting the work sequence number information;

Acquiring inspection characteristic information of each procedure, creating a NODE under the STEP of the child NODE, creating an attribute for the NODE to obtain the attribute of the NODE, and assigning the attribute of the NODE by using the inspection characteristic information; the inspection characteristic information comprises ID, name, characteristic type, inspection method and tool, inspection characteristic number and evaluation criterion of the inspection characteristic; the attributes of the NODE NODEs comprise an ID attribute, a name attribute, a characteristic type attribute, a checking method and tool attribute, a checking characteristic number attribute and an evaluation criterion attribute of checking characteristics;

acquiring three-dimensional labeling information associated with a detection characteristic, creating an ANNOTITION NODE under the NODE NODE, creating an attribute for the ANNOTITION NODE to obtain the attribute of the ANNOTITION NODE, and assigning a value to the attribute of the ANNOTITION NODE by adopting the three-dimensional labeling information associated with the detection characteristic; the three-dimensional labeling information related to the inspection characteristics comprises the type, theoretical value, upper deviation, lower deviation, tolerance zone shape, tolerance principle, benchmark and benchmark tolerance principle of inspection characteristic tolerance requirement; the attributes of the ANNOTITION node comprise a type attribute, a theoretical value attribute, an upper deviation attribute, a lower deviation attribute, a tolerance zone shape attribute, a tolerance principle attribute, a reference attribute and a reference tolerance principle attribute required by checking characteristic tolerance;

Acquiring geometric FEATUREs associated with inspection characteristics, creating a FEATURE NODE under the NODE NODE, and assigning values to the attributes of the FEATURE NODE by adopting the geometric FEATUREs associated with the inspection characteristics;

and acquiring inspection view information corresponding to inspection characteristics, creating a POS NODE under the NODE NODE, and assigning values to the attributes of the POS NODE by adopting the inspection view information corresponding to the inspection characteristics.

Optionally, the deploying file pushing service specifically includes:

a tomcat server is used for issuing a file push service facing a local area network; the input of the file pushing service is the full path of the file to be pushed, and the output is the corresponding file; the file pushing service is used for reading the full path of the file to be pushed, searching according to the full path of the file to be pushed, and transmitting the obtained file to a request end when the file is obtained.

Optionally, the establishing of the association link specifically includes:

reading a lightweight MODEL file corresponding to the three-dimensional inspection procedure, constructing an L _ MODEL node under the 3DIP of the root node, and assigning values to the attributes of the L _ MODEL node by adopting an absolute path of the lightweight MODEL file in a file server;

Constructing a Pictures node under the root node 3DIP, traversing all Pictures under a three-dimensional inspection procedure directory, adding a Pictures node under the Pictures node when obtaining a Picture, and assigning values to the attributes of the Pictures node by adopting the absolute path of the obtained Picture;

reading a reference file in a three-dimensional inspection procedure, constructing Refs nodes under the root node 3DIP, adding one Ref node under the Refs nodes when one reference file is obtained, and assigning the attribute of the Ref node by adopting an absolute path of the reference file.

Optionally, the three-dimensional inspection procedure analysis interface inputs a three-dimensional inspection procedure number, a three-dimensional inspection procedure number version and a work order number to be inspected, and outputs structured inspection procedure information; the three-dimensional inspection procedure analysis interface is used for analyzing the three-dimensional inspection procedure main file and the associated link to obtain structured three-dimensional inspection procedure information; the structured three-dimensional inspection procedure information comprises the inspection characteristic information, three-dimensional labeling information related to the inspection characteristic, geometric features related to the inspection characteristic, inspection view information corresponding to the inspection characteristic, a download link of a lightweight model file, a download link of pictures in a three-dimensional inspection procedure directory and a download link of a reference file in a three-dimensional inspection procedure.

The invention also provides a three-dimensional inspection procedure transmission system based on XML, which comprises:

the three-dimensional inspection procedure master file creating module is used for acquiring three-dimensional inspection procedure master data information and creating a three-dimensional inspection procedure master file based on XML according to the master data information; the three-dimensional inspection regulation main data information comprises three-dimensional inspection regulation information, work order number information, inspection characteristic information, three-dimensional marking information related to inspection characteristics, geometric characteristics related to inspection characteristics and inspection view information corresponding to the inspection characteristics;

the file push service deployment module is used for deploying file push services;

the related link establishing module is used for establishing related links; the associated links comprise an associated link of the three-dimensional inspection procedure main file and a lightweight model file, an associated link of the three-dimensional inspection procedure main file and a picture under a three-dimensional inspection procedure directory and an associated link of the three-dimensional inspection procedure main file and a reference file in a three-dimensional inspection procedure;

the three-dimensional inspection procedure analysis interface deployment module is used for creating a three-dimensional inspection procedure main file and the associated link by the XML and deploying a three-dimensional inspection procedure analysis interface;

And the calling module is used for calling the three-dimensional inspection procedure analysis interface by the inspection execution system of the process to be inspected according to the deployment file pushing service to obtain the structured three-dimensional inspection procedure information.

Optionally, the three-dimensional inspection procedure master file creating module specifically includes:

the three-dimensional inspection procedure information reading unit is used for acquiring a root element of a three-dimensional inspection procedure by utilizing a CATIDescrendant interface of the CATIA and reading three-dimensional inspection procedure information; the three-dimensional inspection procedure information comprises an ID, a name, a version, a model name and a model version of the three-dimensional inspection procedure;

the first attribute assignment unit is used for creating an XML file, creating a root node 3DIP, creating an attribute for the root node 3DIP to obtain the attribute of the root node 3DIP, and assigning the attribute of the root node 3DIP by adopting the three-dimensional inspection procedure information; the attributes of the root node 3DIP include an ID attribute, a name attribute, a version attribute, a model name attribute and a model version attribute of a three-dimensional inspection procedure;

the second attribute assignment unit is used for acquiring the work sequence number information of all the processes to be checked, creating a child node STEP for each process under the root node 3DIP, and assigning the attribute of the child node STEP by adopting the work sequence number information;

A third attribute assignment unit, configured to acquire inspection characteristic information of each process, create a NODE under the child NODE STEP, create an attribute for the NODE, obtain an attribute of the NODE, and assign an attribute of the NODE using the inspection characteristic information; the inspection characteristic information comprises ID, name, characteristic type, inspection method and tool, inspection characteristic number and evaluation criterion of the inspection characteristic; the attributes of the NODE NODEs comprise an ID attribute, a name attribute, a characteristic type attribute, a checking method and tool attribute, a checking characteristic number attribute and an evaluation criterion attribute of checking characteristics;

a fourth attribute assignment unit, configured to acquire three-dimensional labeling information associated with a test characteristic, create an announcing NODE under the NODE, create an attribute for the announcing NODE, obtain an attribute of the announcing NODE, and assign an attribute of the announcing NODE using the three-dimensional labeling information associated with the test characteristic; the three-dimensional labeling information related to the inspection characteristics comprises the type, theoretical value, upper deviation, lower deviation, tolerance zone shape, tolerance principle, benchmark and benchmark tolerance principle of inspection characteristic tolerance requirement; the attributes of the ANNOTITION node comprise a type attribute, a theoretical value attribute, an upper deviation attribute, a lower deviation attribute, a tolerance zone shape attribute, a tolerance principle attribute, a reference attribute and a reference tolerance principle attribute required by checking characteristic tolerance;

A fifth attribute assignment unit, configured to acquire a geometric FEATURE associated with a check characteristic, create a featurenode under the NODE, and assign an attribute of the featurenode with the geometric FEATURE associated with the check characteristic;

and the sixth attribute assignment unit is used for acquiring the inspection view information corresponding to the inspection characteristics, creating a POS NODE under the NODE NODE, and assigning the attributes of the POS NODE by adopting the inspection view information corresponding to the inspection characteristics.

Optionally, the file push service deployment module specifically includes:

the first deployment unit is used for issuing the file push service facing the local area network by using a tomcat server; the input of the file pushing service is the full path of the file to be pushed, and the output is the corresponding file; the file pushing service is used for reading the full path of the file to be pushed, searching according to the full path of the file to be pushed, and transmitting the obtained file to a request end when the file is obtained.

Optionally, the association link establishing module specifically includes:

a seventh attribute assignment unit, configured to read a lightweight MODEL file corresponding to the three-dimensional inspection procedure, construct an L _ mode node under the root node 3DIP, and assign an attribute of the L _ mode node by using an absolute path of the lightweight MODEL file in a file server;

An eighth attribute assignment unit, configured to construct a Pictures node under the root node 3DIP, traverse all Pictures under a three-dimensional inspection procedure directory, when a Picture is obtained, add a Picture node under the Pictures node, and assign an attribute of the Picture node by using an absolute path of the obtained Picture;

and the ninth attribute assignment unit is used for reading a reference file in the three-dimensional inspection procedure, constructing Refs nodes under the root node 3DIP, adding one Ref node under the Refs nodes when one reference file is obtained, and assigning the attribute of the Ref node by adopting an absolute path of the reference file.

Optionally, the three-dimensional test procedure analysis interface in the three-dimensional test procedure analysis interface deployment module inputs a three-dimensional test procedure number, a three-dimensional test procedure number version and a work order number to be tested, and outputs structured test procedure information; the three-dimensional inspection procedure analysis interface is used for analyzing the three-dimensional inspection procedure main file and the associated link to obtain structured three-dimensional inspection procedure information; the structured three-dimensional inspection procedure information comprises the inspection characteristic information, three-dimensional labeling information related to the inspection characteristic, geometric features related to the inspection characteristic, inspection view information corresponding to the inspection characteristic, a download link of a lightweight model file, a download link of pictures in a three-dimensional inspection procedure directory and a download link of a reference file in a three-dimensional inspection procedure.

Compared with the prior art, the invention has the beneficial effects that:

the invention provides a three-dimensional inspection procedure transmission method and a three-dimensional inspection procedure transmission system based on XML, wherein XML files are used as main data of the three-dimensional inspection procedure and are linked with other multi-type data files in an associated manner, and only the XML files need to be transmitted when the XML files are transmitted among the systems.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive exercise.

FIG. 1 is a flow chart of a three-dimensional inspection procedure delivery method based on XML according to an embodiment of the present invention;

Fig. 2 is a schematic structural diagram of a three-dimensional inspection procedure delivery system based on XML according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in further detail below.

Fig. 1 is a flowchart of a three-dimensional inspection procedure delivery method based on XML according to an embodiment of the present invention.

Referring to fig. 1, the XML-based three-dimensional inspection procedure delivery method of the embodiment includes:

step 101: acquiring main data information of a three-dimensional inspection procedure, and creating a main file of the three-dimensional inspection procedure based on XML according to the main data information; the three-dimensional inspection regulation main data information comprises three-dimensional inspection regulation information, work order number information, inspection characteristic information, three-dimensional labeling information related to inspection characteristics, geometric characteristics related to inspection characteristics and inspection view information corresponding to the inspection characteristics.

Step 102: and deploying the file push service.

Step 103: establishing an association link; the associated links comprise an associated link of the three-dimensional test procedure main file and a lightweight model file, an associated link of the three-dimensional test procedure main file and a picture under a three-dimensional test procedure directory, and an associated link of the three-dimensional test procedure main file and a reference file in a three-dimensional test procedure.

Step 104: creating a three-dimensional inspection protocol master file and the associated link deployment three-dimensional inspection protocol parsing interface from the XML.

Step 105: and according to the deployment file pushing service, the inspection execution system of the process to be inspected calls the three-dimensional inspection procedure analysis interface to obtain structured three-dimensional inspection procedure information.

The inspection execution system of the process to be inspected can obtain the structured inspection requirements and the required related files according to the structured three-dimensional inspection regulation information, thereby executing the inspection.

Wherein, step 101 specifically includes:

1) acquiring a root element of a three-dimensional inspection procedure by using a CATIDescrendant interface of the CATIA, and reading information of the three-dimensional inspection procedure; the three-dimensional inspection protocol information includes an ID, a name, a version, a model name, and a model version of the three-dimensional inspection protocol. The CATIA is a commercial three-dimensional graphic software of Dacable company, France, which is used for secondary development and provides a corresponding software interface.

2) Creating an XML file, creating a root node 3DIP, creating an attribute for the root node 3DIP to obtain the attribute of the root node 3DIP, and assigning the attribute of the root node 3DIP by adopting the three-dimensional inspection procedure information; the attributes of the root node 3DIP include an ID attribute, a NAME attribute, a VERSION attribute, a model NAME attribute, and a model VERSION attribute ("ID" attribute, "NAME" attribute, "VERSION" attribute, "model NAME" attribute, "model VERSION" attribute) of the three-dimensional inspection procedure. Specifically, the "ID" attribute, the "NAME" attribute, the "VERSION" attribute, the "model NAME" attribute, and the "model VERSION" attribute correspond to the ID, the NAME, the VERSION, the model NAME, and the model VERSION of the three-dimensional inspection procedure, respectively, and are assigned.

3) And circularly traversing the processes below the root element of the three-dimensional inspection procedure, acquiring the work sequence number information of all the processes to be inspected, wherein the work sequence number information is each work sequence number, creating a child node STEP for each process under the root node 3DIP, and assigning values for the attributes of the child node STEPs by adopting the work sequence number information.

4) For each process, circularly traversing the inspection characteristics contained in the process, acquiring the inspection characteristic information of each process, creating a NODE under the STEP of the child NODE, creating an attribute for the NODE to obtain the attribute of the NODE, and assigning the attribute of the NODE by using the inspection characteristic information; the inspection characteristic information comprises ID, name, characteristic type, inspection method and tool, inspection characteristic number and evaluation criterion of the inspection characteristic; the attributes of the NODE include an ID attribute, a NAME attribute, a property TYPE attribute, a verification METHOD and TOOL attribute, a verification feature number attribute, and an evaluation criterion attribute ("ID" attribute, "NAME" attribute, "TYPE" attribute, "METHOD _ TOOL" attribute, "MEASURE _ NUM" attribute, "ASS _ PRIN" attribute). Specifically, the "ID" attribute, the "NAME" attribute, the "TYPE" attribute, the "METHOD _ TOOL" attribute, the "MEASURE _ NUM" attribute, and the "ASS _ home" attribute respectively correspond to an ID, a NAME, a feature TYPE, a verification METHOD and TOOL, a verification feature number, and an evaluation criterion of the verification feature.

5) Acquiring three-dimensional labeling information associated with a detection characteristic, creating an ANNOTITION NODE under the NODE NODE, creating an attribute for the ANNOTITION NODE to obtain the attribute of the ANNOTITION NODE, and assigning a value to the attribute of the ANNOTITION NODE by adopting the three-dimensional labeling information associated with the detection characteristic; the three-dimensional labeling information related to the inspection characteristics comprises the type, theoretical value, upper deviation, lower deviation, tolerance zone shape, tolerance principle, benchmark and benchmark tolerance principle of inspection characteristic tolerance requirement; the attributes of the ANNOTITION node comprise a type attribute, a theoretical value attribute, an upper deviation attribute, a lower deviation attribute, a tolerance zone shape attribute, a tolerance principle attribute, a reference attribute and a reference tolerance principle attribute required by checking characteristic tolerance.

Specifically, three-dimensional labeling information associated with the inspection characteristics is acquired, and the three-dimensional labeling is analyzed based on a CATITPS interface of the CATIA to acquire the type of the three-dimensional labeling. Aiming at the size class label, acquiring a theoretical value, an upper deviation, a lower deviation, a tolerance zone shape and a tolerance principle; and aiming at the geometric tolerance class marking, obtaining a theoretical value, a reference, a tolerance band shape, a tolerance principle and a reference tolerance principle. Creating an ANNOTITION NODE under the NODE NODE and creating attributes for the ANNOTITION NODE: the "TOL _ TYPE" attribute, the "TVALUE" attribute, the "UPPER" attribute, the "LOWER" attribute, the "TOL _ P" attribute, the "FIRST _ DATUM" attribute, the "SECOND _ DATUM" attribute, the "THIRD _ DATUM" attribute, the "TOL _ P _ F" attribute, the "TOL _ P _ S" attribute, the "TOL _ P _ T" attribute, the "BACKUP" attribute correspond to the TYPE, theoretical value, UPPER deviation, LOWER deviation, tolerance band shape, tolerance principle, FIRST reference, SECOND reference, THIRD reference, FIRST reference tolerance principle, SECOND reference tolerance principle, and THIRD reference principle tolerance of the tolerance requirement, respectively. A tolerance requirement can be fully described based on the above attributes.

6) And acquiring the geometric FEATUREs associated with the checking characteristics, creating a FEATURE NODE under the NODE NODE, and assigning the attribute of the FEATURE NODE by adopting the geometric FEATUREs associated with the checking characteristics.

Specifically, a PersistentTag mechanism (each geometric characteristic has a unique identification code) in the CATIA system is utilized, the associated geometric characteristics of the inspection characteristic, including the unique identifications of the measured characteristic and the reference characteristic, are extracted, and FEATURE NODEs are created according to the number under NODE NODEs, wherein the value of the FEATURE NODEs is the PersistentTag of the geometric characteristics.

7) And acquiring inspection view information corresponding to inspection characteristics, creating a POS NODE under the NODE NODE, and assigning values to the attributes of the POS NODE by adopting the inspection view information corresponding to the inspection characteristics.

Specifically, when the three-dimensional mark 'geometric figure centered' state corresponding to the inspection characteristic is obtained, the three-dimensional pose information of the model in the current window is extracted by using a CATI3DView interface of the CATIA system, and the pose matrix information is a 4 x 3 matrix. And creating a POS NODE under the NODE NODE, and storing 12 parameters of the matrix into the POS NODE in the form of attributes.

Wherein, step 102 specifically comprises:

A tomcat server is used for issuing a file push service facing a local area network; the input of the file pushing service is the full path of the file to be pushed, and the output is the corresponding file; the file pushing service is used for reading the full path of the file to be pushed, searching according to the full path of the file to be pushed, and transmitting the obtained file to a request end when the file is obtained. As shown in table 1.

TABLE 1

Wherein, step 103 specifically comprises:

1) and establishing an associated link between the three-dimensional inspection procedure main file and the lightweight model file.

And reading a lightweight MODEL file corresponding to the three-dimensional inspection procedure, constructing an L _ MODEL node under the root node 3DIP, and assigning an attribute of the L _ MODEL node by adopting an absolute path of the lightweight MODEL file in a file server.

2) And the three-dimensional inspection procedure main file is linked with the pictures in the three-dimensional inspection procedure directory in an associated manner. And constructing a Pictures node under the root node 3DIP, traversing all Pictures under a three-dimensional inspection procedure directory, adding a Pictures node under the Pictures node when one Picture is obtained, and assigning an attribute of the Pictures node by adopting an absolute path of the obtained Picture.

3) And the three-dimensional inspection procedure master file is linked with the association of the reference file in the three-dimensional inspection procedure. Reading a reference file in a three-dimensional inspection procedure, constructing Refs nodes under the root node 3DIP, adding one Ref node under the Refs nodes when one reference file is obtained, and assigning the attribute of the Ref node by adopting an absolute path of the reference file.

Wherein, the input of the three-dimensional test procedure analysis interface in the step 104 is a three-dimensional test procedure number, a three-dimensional test procedure number version and a work order number to be tested, and the output is structured test procedure information; the three-dimensional inspection procedure analysis interface is used for analyzing the three-dimensional inspection procedure main file and the associated link to obtain structured three-dimensional inspection procedure information; the structured three-dimensional inspection procedure information comprises the inspection characteristic information, three-dimensional labeling information related to the inspection characteristic, geometric features related to the inspection characteristic, inspection view information corresponding to the inspection characteristic, a download link of a lightweight model file, a download link of pictures in a three-dimensional inspection procedure directory and a download link of a reference file in a three-dimensional inspection procedure. As shown in table 2.

TABLE 2

The XML-based three-dimensional inspection procedure transmission method of the embodiment improves the efficiency and convenience of transmission of three-dimensional inspection procedures with numerous and complicated information among all procedures and all systems in the same office network environment. The method takes the XML file with a specific format as the main data of the three-dimensional inspection procedure, and then carries out relevant link with other multi-type data files, only the XML file needs to be transmitted when each system is transmitted, and the method provides an analysis interface to ensure that each system only receives structured data and corresponding download link, thereby improving the information transmission efficiency and convenience among multiple systems.

The invention also provides a three-dimensional inspection procedure transmission system based on the XML, and FIG. 2 is a schematic structural diagram of the three-dimensional inspection procedure transmission system based on the XML according to the embodiment of the invention.

Referring to fig. 2, the XML-based three-dimensional inspection procedure delivery system of the present embodiment includes:

a three-dimensional inspection procedure main file creating module 201, configured to obtain three-dimensional inspection procedure main data information, and create a three-dimensional inspection procedure main file based on XML according to the main data information; the three-dimensional inspection regulation main data information comprises three-dimensional inspection regulation information, work order number information, inspection characteristic information, three-dimensional labeling information related to inspection characteristics, geometric characteristics related to inspection characteristics and inspection view information corresponding to the inspection characteristics.

The file push service deployment module 202 is configured to deploy a file push service.

An association link establishing module 203, configured to establish an association link; the associated links comprise an associated link of the three-dimensional test procedure main file and a lightweight model file, an associated link of the three-dimensional test procedure main file and a picture under a three-dimensional test procedure directory, and an associated link of the three-dimensional test procedure main file and a reference file in a three-dimensional test procedure.

A three-dimensional inspection protocol parsing interface deployment module 204 for creating a three-dimensional inspection protocol master file from the XML and deploying a three-dimensional inspection protocol parsing interface with the associated links.

The calling module 205 is configured to, according to the deployment file push service, call the three-dimensional inspection procedure analysis interface by the inspection execution system of the to-be-inspected process, so as to obtain structured three-dimensional inspection procedure information.

As an optional implementation manner, the three-dimensional inspection procedure master file creating module 201 specifically includes:

the three-dimensional inspection procedure information reading unit is used for acquiring a root element of a three-dimensional inspection procedure by utilizing a CATIDescrendant interface of the CATIA and reading three-dimensional inspection procedure information; the three-dimensional inspection protocol information includes an ID, a name, a version, a model name, and a model version of the three-dimensional inspection protocol.

The first attribute assignment unit is used for creating an XML file, creating a root node 3DIP, creating an attribute for the root node 3DIP to obtain the attribute of the root node 3DIP, and assigning the attribute of the root node 3DIP by adopting the three-dimensional inspection procedure information; the attributes of the root node 3DIP include an ID attribute, a name attribute, a version attribute, a model name attribute, and a model version attribute of the three-dimensional inspection procedure.

And the second attribute assignment unit is used for acquiring the work sequence number information of all the processes to be checked, creating a child node STEP for each process under the root node 3DIP, and assigning the attribute of the child node STEP by adopting the work sequence number information.

A third attribute assignment unit, configured to acquire inspection characteristic information of each process, create a NODE under the child NODE STEP, create an attribute for the NODE, obtain an attribute of the NODE, and assign an attribute of the NODE using the inspection characteristic information; the inspection characteristic information comprises ID, name, characteristic type, inspection method and tool, inspection characteristic number and evaluation criterion of the inspection characteristic; the attributes of the NODE include an ID attribute, a name attribute, a feature type attribute, a checking method and tool attribute, a checking feature number attribute and an evaluation criterion attribute of the checking feature.

A fourth attribute assignment unit, configured to acquire three-dimensional labeling information associated with a test characteristic, create an announcing NODE under the NODE, create an attribute for the announcing NODE, obtain an attribute of the announcing NODE, and assign an attribute of the announcing NODE using the three-dimensional labeling information associated with the test characteristic; the three-dimensional labeling information related to the inspection characteristics comprises the type, theoretical value, upper deviation, lower deviation, tolerance zone shape, tolerance principle, benchmark and benchmark tolerance principle of inspection characteristic tolerance requirement; the attributes of the ANNOTITION node comprise a type attribute, a theoretical value attribute, an upper deviation attribute, a lower deviation attribute, a tolerance zone shape attribute, a tolerance principle attribute, a reference attribute and a reference tolerance principle attribute required by checking characteristic tolerance.

And the fifth attribute assignment unit is used for acquiring the geometric FEATUREs associated with the check characteristics, creating a FEATURE NODE under the NODE NODE, and assigning the attributes of the FEATURE NODE by adopting the geometric FEATUREs associated with the check characteristics.

And the sixth attribute assignment unit is used for acquiring the inspection view information corresponding to the inspection characteristics, creating a POS NODE under the NODE NODE, and assigning the attributes of the POS NODE by adopting the inspection view information corresponding to the inspection characteristics.

As an optional implementation manner, the file push service deployment module 202 specifically includes:

the first deployment unit is used for issuing the file push service facing the local area network by using a tomcat server; the input of the file pushing service is the full path of the file to be pushed, and the output is the corresponding file; the file pushing service is used for reading the full path of the file to be pushed, searching according to the full path of the file to be pushed, and transmitting the obtained file to a request end when the file is obtained.

As an optional implementation manner, the association link establishing module 203 specifically includes:

and the seventh attribute assignment unit is used for reading a lightweight MODEL file corresponding to the three-dimensional inspection procedure, constructing an L _ MODEL node under the root node 3DIP, and assigning the attribute of the L _ MODEL node by adopting an absolute path of the lightweight MODEL file in a file server.

And the eighth attribute assignment unit is used for constructing a Pictures node under the root node 3DIP, traversing all Pictures under the three-dimensional inspection procedure directory, adding a Picture node under the Pictures node when one Picture is obtained, and assigning the attribute of the Picture node by adopting the absolute path of the obtained Picture.

And the ninth attribute assignment unit is used for reading a reference file in the three-dimensional inspection procedure, constructing Refs nodes under the root node 3DIP, adding one Ref node under the Refs nodes when one reference file is obtained, and assigning the attribute of the Ref node by adopting an absolute path of the reference file.

As an optional implementation manner, the three-dimensional inspection procedure analysis interface in the three-dimensional inspection procedure analysis interface deployment module 204 inputs a three-dimensional inspection procedure number, a three-dimensional inspection procedure number version, and a work order number to be inspected, and outputs structured inspection procedure information; the three-dimensional inspection procedure analysis interface is used for analyzing the three-dimensional inspection procedure main file and the associated link to obtain structured three-dimensional inspection procedure information; the structured three-dimensional inspection procedure information comprises the inspection characteristic information, three-dimensional labeling information related to the inspection characteristic, geometric features related to the inspection characteristic, inspection view information corresponding to the inspection characteristic, a download link of a lightweight model file, a download link of pictures in a three-dimensional inspection procedure directory and a download link of a reference file in a three-dimensional inspection procedure.

In the three-dimensional inspection procedure transmission system based on the XML in the embodiment, the XML file is used as main data, multiple types of information and files are associated in an information link mode, and only the XML file is transmitted when the multiple systems are transmitted, so that the information transmission efficiency is improved and the information transmission risk is reduced on the basis of ensuring the information transmission integrity of the three-dimensional inspection procedure.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. For the system disclosed by the embodiment, the description is relatively simple because the system corresponds to the method disclosed by the embodiment, and the relevant points can be referred to the method part for description.

The principles and embodiments of the present invention have been described herein using specific examples, which are provided only to help understand the method and the core concept of the present invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, the specific embodiments and the application range may be changed. In view of the above, the present disclosure should not be construed as limiting the invention.

Claims (10)

1. A three-dimensional inspection procedure transfer method based on XML is characterized by comprising the following steps:

acquiring main data information of a three-dimensional inspection procedure, and creating a main file of the three-dimensional inspection procedure based on XML according to the main data information; the three-dimensional inspection regulation main data information comprises three-dimensional inspection regulation information, work order number information, inspection characteristic information, three-dimensional marking information related to inspection characteristics, geometric characteristics related to inspection characteristics and inspection view information corresponding to the inspection characteristics;

deploying a file push service;

establishing an association link; the associated links comprise an associated link of the three-dimensional inspection procedure main file and a lightweight model file, an associated link of the three-dimensional inspection procedure main file and a picture under a three-dimensional inspection procedure directory and an associated link of the three-dimensional inspection procedure main file and a reference file in a three-dimensional inspection procedure;

creating a three-dimensional inspection procedure master file and the associated link deployment three-dimensional inspection procedure parsing interface from the XML;

and according to the deployment file pushing service, the inspection execution system of the process to be inspected calls the three-dimensional inspection procedure analysis interface to obtain structured three-dimensional inspection procedure information.

2. The method according to claim 1, wherein the obtaining of the main data information of the three-dimensional inspection procedure and the creating of the main file of the three-dimensional inspection procedure based on XML according to the main data information comprise:

acquiring a root element of a three-dimensional inspection procedure by using a CATIDescrendant interface of the CATIA, and reading information of the three-dimensional inspection procedure; the three-dimensional inspection procedure information comprises an ID, a name, a version, a model name and a model version of the three-dimensional inspection procedure;

creating an XML file, creating a root node 3DIP, creating an attribute for the root node 3DIP to obtain the attribute of the root node 3DIP, and assigning the attribute of the root node 3DIP by adopting the three-dimensional inspection procedure information; the attributes of the root node 3DIP include an ID attribute, a name attribute, a version attribute, a model name attribute and a model version attribute of a three-dimensional inspection procedure;

acquiring the work sequence number information of all the processes to be checked, creating a child node STEP for each process under the root node 3DIP, and assigning values to the attributes of the child node STEPs by adopting the work sequence number information;

acquiring inspection characteristic information of each procedure, creating a NODE under the STEP of the child NODE, creating an attribute for the NODE to obtain the attribute of the NODE, and assigning the attribute of the NODE by using the inspection characteristic information; the inspection characteristic information comprises ID, name, characteristic type, inspection method and tool, inspection characteristic number and evaluation criterion of the inspection characteristic; the attributes of the NODE NODEs comprise an ID attribute, a name attribute, a characteristic type attribute, a checking method and tool attribute, a checking characteristic number attribute and an evaluation criterion attribute of checking characteristics;

Acquiring three-dimensional labeling information associated with a detection characteristic, creating an ANNOTITION NODE under the NODE NODE, creating an attribute for the ANNOTITION NODE to obtain the attribute of the ANNOTITION NODE, and assigning a value to the attribute of the ANNOTITION NODE by adopting the three-dimensional labeling information associated with the detection characteristic; the three-dimensional labeling information related to the inspection characteristics comprises the type, theoretical value, upper deviation, lower deviation, tolerance zone shape, tolerance principle, benchmark and benchmark tolerance principle of inspection characteristic tolerance requirement; the attributes of the ANNOTITION node comprise a type attribute, a theoretical value attribute, an upper deviation attribute, a lower deviation attribute, a tolerance zone shape attribute, a tolerance principle attribute, a reference attribute and a reference tolerance principle attribute required by checking characteristic tolerance;

acquiring geometric FEATUREs associated with inspection characteristics, creating a FEATURE NODE under the NODE NODE, and assigning values to the attributes of the FEATURE NODE by adopting the geometric FEATUREs associated with the inspection characteristics;

and acquiring inspection view information corresponding to inspection characteristics, creating a POS NODE under the NODE NODE, and assigning values to the attributes of the POS NODE by adopting the inspection view information corresponding to the inspection characteristics.

3. The XML-based three-dimensional inspection procedure delivery method according to claim 1, wherein the deploying file push service specifically includes:

a tomcat server is used for issuing a file push service facing a local area network; the input of the file pushing service is the full path of the file to be pushed, and the output is the corresponding file; the file pushing service is used for reading the full path of the file to be pushed, searching according to the full path of the file to be pushed, and transmitting the obtained file to a request end when the file is obtained.

4. The XML-based three-dimensional inspection protocol transfer method according to claim 2, wherein the establishing of the association link specifically includes:

reading a lightweight MODEL file corresponding to the three-dimensional inspection procedure, constructing an L _ MODEL node under the 3DIP of the root node, and assigning values to the attributes of the L _ MODEL node by adopting an absolute path of the lightweight MODEL file in a file server;

constructing a Pictures node under the root node 3DIP, traversing all Pictures under a three-dimensional inspection procedure directory, adding a Pictures node under the Pictures node when obtaining a Picture, and assigning values to the attributes of the Pictures node by adopting the absolute path of the obtained Picture;

Reading a reference file in a three-dimensional inspection procedure, constructing Refs nodes under the root node 3DIP, adding one Ref node under the Refs nodes when one reference file is obtained, and assigning the attribute of the Ref node by adopting an absolute path of the reference file.

5. The XML-based three-dimensional inspection protocol transfer method according to claim 1, wherein the three-dimensional inspection protocol parsing interface inputs a three-dimensional inspection protocol number, a version of the three-dimensional inspection protocol number, and a work order number to be inspected, and outputs structured inspection protocol information; the three-dimensional inspection procedure analysis interface is used for analyzing the three-dimensional inspection procedure main file and the associated link to obtain structured three-dimensional inspection procedure information; the structured three-dimensional inspection procedure information comprises the inspection characteristic information, three-dimensional labeling information related to the inspection characteristic, geometric features related to the inspection characteristic, inspection view information corresponding to the inspection characteristic, a download link of a lightweight model file, a download link of pictures in a three-dimensional inspection procedure directory and a download link of a reference file in a three-dimensional inspection procedure.

6. An XML-based three-dimensional inspection protocol delivery system, comprising:

the three-dimensional inspection procedure master file creating module is used for acquiring three-dimensional inspection procedure master data information and creating a three-dimensional inspection procedure master file based on XML according to the master data information; the three-dimensional inspection regulation main data information comprises three-dimensional inspection regulation information, work order number information, inspection characteristic information, three-dimensional marking information related to inspection characteristics, geometric characteristics related to inspection characteristics and inspection view information corresponding to the inspection characteristics;

the file push service deployment module is used for deploying file push services;

the related link establishing module is used for establishing related links; the associated links comprise an associated link of the three-dimensional inspection procedure main file and a lightweight model file, an associated link of the three-dimensional inspection procedure main file and a picture under a three-dimensional inspection procedure directory and an associated link of the three-dimensional inspection procedure main file and a reference file in a three-dimensional inspection procedure;

the three-dimensional inspection procedure analysis interface deployment module is used for creating a three-dimensional inspection procedure main file and the associated link by the XML and deploying a three-dimensional inspection procedure analysis interface;

And the calling module is used for calling the three-dimensional inspection procedure analysis interface by the inspection execution system of the process to be inspected according to the deployment file pushing service to obtain the structured three-dimensional inspection procedure information.

7. The XML-based three-dimensional inspection protocol delivery system according to claim 6, wherein the three-dimensional inspection protocol master file creation module specifically includes:

the three-dimensional inspection procedure information reading unit is used for acquiring a root element of a three-dimensional inspection procedure by utilizing a CATIDescrendant interface of the CATIA and reading three-dimensional inspection procedure information; the three-dimensional inspection procedure information comprises an ID, a name, a version, a model name and a model version of the three-dimensional inspection procedure;

the first attribute assignment unit is used for creating an XML file, creating a root node 3DIP, creating an attribute for the root node 3DIP to obtain the attribute of the root node 3DIP, and assigning the attribute of the root node 3DIP by adopting the three-dimensional inspection procedure information; the attributes of the root node 3DIP include an ID attribute, a name attribute, a version attribute, a model name attribute and a model version attribute of a three-dimensional inspection procedure;

the second attribute assignment unit is used for acquiring the work sequence number information of all the processes to be checked, creating a child node STEP for each process under the root node 3DIP, and assigning the attribute of the child node STEP by adopting the work sequence number information;

A third attribute assignment unit, configured to acquire inspection characteristic information of each process, create a NODE under the child NODE STEP, create an attribute for the NODE, obtain an attribute of the NODE, and assign an attribute of the NODE using the inspection characteristic information; the inspection characteristic information comprises ID, name, characteristic type, inspection method and tool, inspection characteristic number and evaluation criterion of the inspection characteristic; the attributes of the NODE NODEs comprise an ID attribute, a name attribute, a characteristic type attribute, a checking method and tool attribute, a checking characteristic number attribute and an evaluation criterion attribute of checking characteristics;

a fourth attribute assignment unit, configured to acquire three-dimensional labeling information associated with a test characteristic, create an announcing NODE under the NODE, create an attribute for the announcing NODE, obtain an attribute of the announcing NODE, and assign an attribute of the announcing NODE using the three-dimensional labeling information associated with the test characteristic; the three-dimensional labeling information related to the inspection characteristics comprises the type, theoretical value, upper deviation, lower deviation, tolerance zone shape, tolerance principle, benchmark and benchmark tolerance principle of inspection characteristic tolerance requirement; the attributes of the ANNOTITION node comprise a type attribute, a theoretical value attribute, an upper deviation attribute, a lower deviation attribute, a tolerance zone shape attribute, a tolerance principle attribute, a reference attribute and a reference tolerance principle attribute required by checking characteristic tolerance;

A fifth attribute assignment unit, configured to acquire a geometric FEATURE associated with a check characteristic, create a featurenode under the NODE, and assign an attribute of the featurenode with the geometric FEATURE associated with the check characteristic;

and the sixth attribute assignment unit is used for acquiring the inspection view information corresponding to the inspection characteristics, creating a POS NODE under the NODE NODE, and assigning the attributes of the POS NODE by adopting the inspection view information corresponding to the inspection characteristics.

8. The XML-based three-dimensional inspection procedure delivery system according to claim 6, wherein the file push service deployment module specifically includes:

the first deployment unit is used for issuing the file push service facing the local area network by using a tomcat server; the input of the file pushing service is the full path of the file to be pushed, and the output is the corresponding file; the file pushing service is used for reading the full path of the file to be pushed, searching according to the full path of the file to be pushed, and transmitting the obtained file to a request end when the file is obtained.

9. The XML-based three-dimensional inspection procedure delivery system according to claim 7, wherein the association link establishing module specifically includes:

A seventh attribute assignment unit, configured to read a lightweight MODEL file corresponding to the three-dimensional inspection procedure, construct an L _ mode node under the root node 3DIP, and assign an attribute of the L _ mode node by using an absolute path of the lightweight MODEL file in a file server;

an eighth attribute assignment unit, configured to construct a Pictures node under the root node 3DIP, traverse all Pictures under a three-dimensional inspection procedure directory, when a Picture is obtained, add a Picture node under the Pictures node, and assign an attribute of the Picture node by using an absolute path of the obtained Picture;

and the ninth attribute assignment unit is used for reading a reference file in the three-dimensional inspection procedure, constructing Refs nodes under the root node 3DIP, adding one Ref node under the Refs nodes when one reference file is obtained, and assigning the attribute of the Ref node by adopting an absolute path of the reference file.

10. The XML-based three-dimensional inspection protocol delivery system according to claim 6, wherein the three-dimensional inspection protocol parsing interface in the three-dimensional inspection protocol parsing interface deployment module has inputs of a three-dimensional inspection protocol number, a version of the three-dimensional inspection protocol number, and a work order number to be inspected, and outputs of the three-dimensional inspection protocol parsing interface is structured inspection protocol information; the three-dimensional inspection procedure analysis interface is used for analyzing the three-dimensional inspection procedure main file and the associated link to obtain structured three-dimensional inspection procedure information; the structured three-dimensional inspection procedure information comprises the inspection characteristic information, three-dimensional labeling information related to the inspection characteristic, geometric features related to the inspection characteristic, inspection view information corresponding to the inspection characteristic, a download link of a lightweight model file, a download link of pictures in a three-dimensional inspection procedure directory and a download link of a reference file in a three-dimensional inspection procedure.

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