CN111475941A - Industrial design drawing work system - Google Patents

Abstract

The invention relates to an industrial design drawing work system, which comprises a cooperative subsystem and at least two interactive terminals; the cooperation subsystem is configured with a cooperation information database, the cooperation information database stores a plurality of cooperation information, and each cooperation information comprises at least two different format types of information and a corresponding cooperation strategy; the collaboration subsystem comprises a collaboration server; when different software is used for development, cooperation can be performed in the cloud, data contents in different formats can cooperate with a data format through the cooperation subsystem, most data are converted by using local processor resources, a conversion protocol is called by the cooperation subsystem and is configured in real time, cooperation strategies aiming at different cooperation formats are different, and optimal configuration of the data resources is achieved.

Description

Industrial design drawing work system

Technical Field

The invention relates to an industrial drawing system, in particular to an industrial design drawing work system.

Background

Industrial mapping is currently very important in the field of industrial manufacturing, and industrial products are designed and drawn according to industrial mapping software. The software can be applied in production, the characteristics of different drawing software are different, common drawing software comprises drawing software such as CAD, 3DMAX, PRO/E, solid works, UG, CATIA and the like, the setting of each software to a module is different, because the software formats used by designers of different industrial design companies are different, format files of different formats are completed through format conversion because of different format logics among different software at present, complete collaboration cannot be realized due to the fact that the problem of data loss easily occurs easily, and files of different formats can be opened after the formats are converted, and the effect of online collaboration cannot be realized.

Disclosure of Invention

In view of the above, the present invention provides an industrial design drawing system.

In order to solve the technical problems, the technical scheme of the invention is as follows: an industrial design drawing work system comprises a cooperative subsystem and at least two interactive terminals; the cooperation subsystem is configured with a cooperation information database, the cooperation information database stores a plurality of cooperation information, and each cooperation information comprises at least two different format types of information and a corresponding cooperation strategy; the collaboration subsystem comprises a collaboration server;

the interactive terminal accesses the cooperative subsystem to initiate a cooperative request, wherein the cooperative request comprises format type information, and the format type information reflects the type of design software used by the interactive terminal; the cooperation subsystem screens the cooperation information database for obtaining a corresponding cooperation strategy according to the received cooperation request as an index;

the cooperation strategy is configured with a plurality of local cooperation protocols and a plurality of cloud cooperation protocols, each local cooperation protocol corresponds to an interaction terminal setting requesting cooperation, each cloud cooperation protocol corresponds to an interaction terminal setting requesting cooperation, the cooperation strategy comprises a cooperation step, and the cooperation step comprises the steps of respectively sending the local cooperation protocols to the corresponding interaction terminals and simultaneously configuring the cloud cooperation protocols in the cooperation server;

the interaction terminal is configured with a local cooperation module, the local cooperation module processes local design data according to the local cooperation protocol to obtain local conversion data, the local conversion data is sent to the cooperation server, and the cooperation server processes the local conversion data according to the cloud cooperation protocol to obtain cloud conversion data;

the cooperation server is provided with a reference cooperation platform, the reference cooperation platform is used for outputting the cloud conversion data to a corresponding interactive terminal, and the interactive terminal displays the cloud conversion data;

the cooperative subsystem is further configured with a cooperative response module, the cooperative response module is configured to respond to a cooperative command, and when the cooperative subsystem receives the cooperative command, obtaining a corresponding cloud command according to the cloud coordination protocol, sending the corresponding cloud command to a corresponding interactive terminal, the interactive terminal processes the cloud command according to the local cooperative protocol to obtain a local command, processes the local conversion data according to the local command to obtain new local conversion data and generates a processing result according to the local conversion data, the interactive terminal processes the processing result according to the local cooperative protocol to obtain a local conversion result and sends the local conversion result to the cooperative server, the collaboration server processes the local conversion result according to a cloud collaboration protocol to obtain a cloud processing result, and the cooperative server processes the cloud conversion data through a cloud processing result to obtain new cloud conversion data.

Further, the interactive terminal comprises a command generation module, and the command generation module is used for generating the local command.

Further, the reference cooperation platform is configured with a cloud check standard, and when the reference cooperation platform receives the cloud conversion data, the cloud conversion data to be generated and the original cloud conversion data are checked through the cloud check standard and a check result is generated.

Further, the reference cooperative platform is configured with a compensation algorithm, and the compensation algorithm processes the cloud conversion data to be generated according to the verification result so that the new cloud conversion data meets the cloud verification standard.

Further, the types of the design software comprise CAD, 3DMAX, PRO/E, Solidworks, UG and CATIA.

Further, the collaboration server further comprises a bandwidth configuration algorithm, and the bandwidth configuration algorithm configures corresponding communication bandwidth according to the collaboration request.

Further, the collaboration request also includes a local design data size.

Further, the collaboration request further includes user information.

Further, the cloud conversion data includes a number of feature names and corresponding feature contents under each feature name.

Further, the cooperative subsystem is configured with a deletion compensation strategy and a feature database, the feature database stores feature information, the feature information includes a feature name and corresponding feature content, and when data is deleted in the cloud conversion data, the corresponding feature content is called from the feature database according to the feature name to generate and supplement the cloud conversion data.

The technical effects of the invention are mainly reflected in the following aspects: by means of the configuration, when different software is used for development, cooperation can be performed on the cloud, data contents in different formats can cooperate with data formats through the cooperation subsystem, most data are converted by using local processor resources, conversion protocols are called by the cooperation subsystem and are configured in real time, cooperation strategies aiming at different cooperation formats are different, and optimal configuration of data resources is achieved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed 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 creative efforts.

FIG. 1: the invention discloses a topological schematic diagram of a system;

FIG. 2: the invention relates to a flow schematic diagram of a cooperative request phase;

FIG. 3: the invention is a flow diagram of a cooperative implementation phase.

Reference numerals: 1. a collaboration subsystem; 11. a collaborative information database; 12. a collaboration server; 101. a reference collaboration platform; 102. a collaborative response module; 103. a missing database; 2. an interactive terminal; 201. and a command generation module.

Detailed Description

For further explanation of the various embodiments, the drawings which form a part of the disclosure and which are incorporated in and constitute a part of this specification, illustrate embodiments and, together with the description, serve to explain the principles of operation of the embodiments, and to enable others of ordinary skill in the art to understand the various embodiments and advantages of the invention, and, by reference to these figures, reference is made to the accompanying drawings, which are not to scale and wherein like reference numerals generally refer to like elements. The following detailed description of the embodiments of the present invention is provided in order to make the technical solution of the present invention easier to understand and understand.

Referring to fig. 1, an industrial design drawing work system includes a collaboration subsystem 1 and at least two interaction terminals 2; the collaboration subsystem 1 is configured with a collaboration information database 11, where the collaboration information database 11 stores a plurality of pieces of collaboration information, and each piece of collaboration information includes at least two pieces of different format type information and a corresponding collaboration policy; the collaboration subsystem 1 comprises a collaboration server 12; the invention is an interactive system based on collaboration, so that users using industrial design software in different environments can work collaboratively by using the system, and the principle is as follows:

the interactive terminal 2 accesses the cooperative subsystem 1 to initiate a cooperative request, wherein the cooperative request comprises format type information, and the format type information reflects the type of design software used by the interactive terminal 2; the collaboration subsystem 1 screens the collaboration information database 11 for an index according to the received collaboration request to obtain a corresponding collaboration strategy; firstly, a user side initiates a cooperation request, and simultaneously initiates and establishes a cooperation relationship after verification, the initiated cooperation request comprises the existing design software types of a user, when the two types are different, the executed cooperation strategies are determined according to different types of conditions, and the cooperation strategies aiming at different conditions are different.

The cooperation strategy is configured with a plurality of local cooperation protocols and a plurality of cloud cooperation protocols, each local cooperation protocol corresponds to one interaction terminal 2 requiring cooperation, each cloud cooperation protocol corresponds to one interaction terminal 2 requiring cooperation, the cooperation strategy comprises a cooperation step, and the cooperation step comprises the steps of respectively sending the local cooperation protocols to the corresponding interaction terminals 2 and simultaneously configuring the cloud cooperation protocols in the cooperation server 12; the cooperative strategy comprises two protocols, one protocol is a protocol sent to the local, for example, a user A uses software a, a user B uses software B, corresponding protocols are generated according to the software a and the software B, the two local cooperative protocols are respectively a1 and B1, data Xa is processed to obtain Ya, Xb is processed to obtain Yb, the processing processes are respectively processed by processing resources of the software a and the software B, then the obtained Ya \ Yb is sent to the cooperative subsystem 1, the cooperative subsystem 1 processes to obtain Z1\ Z2, at this moment, the format types are the same, namely the data Z1\ Z2 can be processed uniformly by the cooperative subsystem 1, the format types of the Ya \ Yb can be different, but the data which can be converted by the cooperative subsystem 1 through the cloud protocol must be needed, so that the data can be cooperative in the cloud, and the cloud protocol and the local protocols are not changed in the cooperative process, therefore, the data conversion can still be carried out in real time, and importantly, the setting of the two protocols can ensure the minimum data transmission amount, the cooperative subsystem 1 does not need to be configured with all types of software environments, and most work is finished at the cloud end.

The interactive terminal 2 is configured with a local cooperation module, the local cooperation module processes local design data according to the local cooperation protocol to obtain local conversion data, and sends the local conversion data to the cooperation server 12, and the cooperation server 12 processes the local conversion data according to the cloud cooperation protocol to obtain cloud conversion data; the types of the design software comprise CAD, 3DMAX, PRO/E, Solidworks, UG and CATIA.

The collaboration server 12 is configured with a reference collaboration platform 101, where the reference collaboration platform 101 is configured to output the cloud conversion data to a corresponding interactive terminal 2, and the interactive terminal 2 displays the cloud conversion data; the collaborative reference platform is configured to design a software environment which is mainly based on interactive functions with the cloud, and compared with other industrial design software, the collaborative reference platform has the function of omitting most data processing so as to mainly respond to commands and present interactive models.

The cooperative subsystem 1 is further configured with a cooperative response module 102, where the cooperative response module 102 is configured to respond to a cooperative command, and when the cooperative subsystem 1 receives the cooperative command, obtaining a corresponding cloud command according to the cloud coordination protocol, sending the corresponding cloud command to the corresponding interactive terminal 2, the interactive terminal 2 processes the cloud command according to the local cooperative protocol to obtain a local command, the interactive terminal 2 processes the local conversion data according to the local command to obtain new local conversion data and generates a processing result according to the local conversion data, the interactive terminal 2 processes the processing result according to the local cooperative protocol to obtain a local conversion result and sends the local conversion result to the cooperative server 12, the cooperation server 12 processes the local conversion result according to the cloud cooperation protocol to obtain a cloud processing result, the cooperation server 12 processes the cloud conversion data through a cloud processing result to obtain new cloud conversion data. The cooperative subsystem 1 responds through the cooperative response module 102, so as to achieve a better cooperative effect. The interactive terminal 2 comprises a command generating module 201, and the command generating module 201 is configured to generate the local command.

The reference cooperative platform 101 is configured with a cloud check standard, and when the reference cooperative platform 101 receives cloud conversion data, the cloud conversion data to be generated and the original cloud conversion data are checked by the cloud check standard and a check result is generated. The reference cooperative platform 101 is configured with a compensation algorithm, and the compensation algorithm processes the cloud conversion data to be generated according to the verification result so that the new cloud conversion data meets the cloud verification standard. The cloud conversion data comprises a plurality of feature names and corresponding feature content under each feature name. The check standard is set to check the data and design compensation when the data is lost, for example, the data can be encapsulated by the feature name when the local protocol is converted, and if the feature content and the feature name do not correspond to each other, the check standard is judged not to be met, and at the moment, the feature can be supplemented according to the existing feature data of the cloud, so that data interaction is realized.

The collaboration server 12 further includes a bandwidth allocation algorithm, and the bandwidth allocation algorithm allocates a corresponding communication bandwidth according to the collaboration request. The collaboration request also includes a local design data size. The collaboration request also includes user information. The design core of the scheme is two: 1. the method comprises the following steps of (1) primarily processing local data by utilizing a local software environment and operation resources; 2. the synergistic effect is ensured, and the response is ensured. And different bandwidths can be configured through the size of the file type and the priority of the user so as to improve the cooperative efficiency of the whole system.

The cooperative subsystem 1 is configured with a deletion compensation strategy and a feature database, the feature database stores feature information, the feature information includes feature names and corresponding feature contents, and when data are deleted in the cloud conversion data, the corresponding feature contents are called from the feature database according to the feature names to generate and supplement the cloud conversion data. When data are missing, the integrity of the data can be achieved through compensation of cloud conversion data, for example, common data features such as bolts are missing, so that a new feature data can be called directly according to data specifications through a database, and compensation is performed from the whole file. The design is based on the fact that the cloud protocol encapsulates data by class.

The data edited by different editing software can be synchronously displayed, acted and operated in the cooperative subsystem according to the software type, the local data is dually compiled through a preset protocol, so that the format of the local data is unified in the cooperative subsystem, and the processor mainly utilizes the benevolence to process the data consistency because the local software environment can borrow more types, saves processing resources and completes the data consistency.

The above are only typical examples of the present invention, and besides, the present invention may have other embodiments, and all the technical solutions formed by equivalent substitutions or equivalent changes are within the scope of the present invention as claimed.

Claims (6)

1. An industrial design drawing work system, characterized by: the system comprises a cooperative subsystem and at least two interactive terminals; the cooperation subsystem is configured with a cooperation information database, the cooperation information database stores a plurality of cooperation information, and each cooperation information comprises at least two different format types of information and a corresponding cooperation strategy; the collaboration subsystem comprises a collaboration server;

the interactive terminal accesses the cooperative subsystem to initiate a cooperative request, wherein the cooperative request comprises format type information, and the format type information reflects the type of design software used by the interactive terminal; the cooperation subsystem screens the cooperation information database for obtaining a corresponding cooperation strategy according to the received cooperation request as an index;

the cooperation strategy is configured with a plurality of local cooperation protocols and a plurality of cloud cooperation protocols, each local cooperation protocol corresponds to an interaction terminal setting requesting cooperation, each cloud cooperation protocol corresponds to an interaction terminal setting requesting cooperation, the cooperation strategy comprises a cooperation step, and the cooperation step comprises the steps of respectively sending the local cooperation protocols to the corresponding interaction terminals and simultaneously configuring the cloud cooperation protocols in the cooperation server;

the interaction terminal is configured with a local cooperation module, the local cooperation module processes local design data according to the local cooperation protocol to obtain local conversion data, the local conversion data is sent to the cooperation server, and the cooperation server processes the local conversion data according to the cloud cooperation protocol to obtain cloud conversion data;

the cooperation server is provided with a reference cooperation platform, the reference cooperation platform is used for outputting the cloud conversion data to a corresponding interactive terminal, and the interactive terminal displays the cloud conversion data;

the cooperative subsystem is further configured with a cooperative response module, the cooperative response module is configured to respond to a cooperative command, and when the cooperative subsystem receives the cooperative command, obtaining a corresponding cloud command according to the cloud coordination protocol, sending the corresponding cloud command to a corresponding interactive terminal, the interactive terminal processes the cloud command according to the local cooperative protocol to obtain a local command, processes the local conversion data according to the local command to obtain new local conversion data and generates a processing result according to the local conversion data, the interactive terminal processes the processing result according to the local cooperative protocol to obtain a local conversion result and sends the local conversion result to the cooperative server, the collaboration server processes the local conversion result according to a cloud collaboration protocol to obtain a cloud processing result, and the cooperative server processes the cloud conversion data through a cloud processing result to obtain new cloud conversion data.

2. An industrial design drawing work system according to claim 1, wherein: the interactive terminal comprises a command generation module, and the command generation module is used for generating the local command.

3. An industrial design drawing work system according to claim 1, wherein: the reference cooperation platform is configured with a cloud check standard, and when the reference cooperation platform receives the cloud conversion data, the cloud conversion data to be generated and the original cloud conversion data are checked through the cloud check standard and a check result is generated.

4. An industrial design drawing work system according to claim 3, wherein: and the reference cooperative platform is configured with a compensation algorithm, and the compensation algorithm processes the cloud conversion data to be generated according to the verification result so that the new cloud conversion data meets the cloud verification standard.

5. An industrial design drawing work system according to claim 1, wherein: the types of the design software comprise CAD, 3DMAX, PRO/E, Solidworks, UG and CATIA.

6. An industrial design drawing work system according to claim 1, wherein: the cooperative server also comprises a bandwidth configuration algorithm, and the bandwidth configuration algorithm configures corresponding communication bandwidth according to the cooperative request.

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