CN112560581A - Engineering drawing management system, management method, computer device, medium and terminal - Google Patents

Abstract

The invention belongs to the technical field of engineering management, and discloses an engineering drawing management system, a management method, computer equipment, a medium and a terminal, which comprise an engineering drawing automatic generation module, a data processing module and a data processing module, wherein the engineering drawing automatic generation module is used for automatically generating engineering drawings based on a determined engineering drawing making flow and an engineering drawing making rule; the data acquisition module acquires line width, line distance, SMD, BGA position and other related data; the identification position determining module determines the identification position of the acquired data; the data identification module identifies the related data based on the determined data identification position; the optimization module performs optimization display on the data representation; the checking module checks and verifies the generated engineering drawing and judges whether an error exists or not; and the output module outputs the project drawing checked to be correct. The engineering management system realizes operation standardization, reduces the possibility of missing operation and abnormal operation caused by human, and avoids the trouble of production lines.

Description

Engineering drawing management system, management method, computer device, medium and terminal

Technical Field

The invention belongs to the technical field of engineering management, and particularly relates to an engineering drawing management system, an engineering drawing management method, computer equipment, a medium and a terminal.

Background

At present, with economic development and social progress, the living standard of people is continuously improved, city construction is changed day by day, a large amount of drawings are generated in each city construction project, including all engineering drawing data from an initial design draft to a final design draft, the engineering drawing data need to be checked and guaranteed in construction and implementation, and management of the whole life cycle of the engineering drawing is required, and the checking and management of the engineering drawing is a complex process and has very high requirements on the process.

Due to the diversity of the construction engineering drawings and the complexity of examination, the management requirement is high, and enterprises need to invest a large amount of management cost in the aspect of managing the construction drawings.

At present, the checking management of the construction engineering drawings mainly depends on manual work, on one hand, the labor cost is high, the efficiency is low, meanwhile, the checking and checking conditions of manual management are more, and the trouble of a production line is large. Meanwhile, the generated engineering drawings have large problems and do not meet the requirements of production lines. The existing industrial engineering drawings bring much trouble to the actual operation of production line staff.

Through the above analysis, the problems and defects of the prior art are as follows: the existing engineering drawing management has high labor cost, low efficiency, more error and leakage conditions and large troubles of production lines.

Disclosure of Invention

The invention provides an engineering drawing management system, an engineering drawing management method, computer equipment, a medium and a terminal, aiming at the problems in the prior art.

The invention is realized in this way, a method for managing engineering drawings is applied to an information data processing terminal, and the method for managing engineering drawings comprises the following steps:

collecting the generated related data of the engineering drawing, and determining an identification position of the collected related data of the engineering drawing;

identifying relevant data based on the determined data identification position; and optimizing, displaying and outputting the identification data.

Further, the generated engineering drawing automatically grows on the basis of the determined engineering drawing making flow and the engineering drawing making rule;

the relevant data includes: line width, line spacing, SMD, BGA position data.

Further, the optimizing the identification data includes:

determining an engineering drawing making process;

making an engineering drawing automatic schedule;

acquiring an improvement scheme related to an engineering measurement drawing;

and determining an engineering drawing formulation rule and constructing an engineering management system.

Further, the making of the automatic schedule of the engineering drawing comprises: determining an abnormal point improving mode of the production line feedback engineering drawing;

the scheme for obtaining the improvement of the engineering measurement drawing comprises the following steps:

the identification position of the engineering drawing is overlapped with other representation positions to be adjusted;

adjusting the data of the identification position and the identification position of the engineering drawing;

and adjusting the impedance line with the line width marked on the engineering drawing without remarking.

Further, the determining the identification position of the collected data related to the engineering drawing includes:

calculating the condition of collecting the overlapped abnormal points according to the quantity of the engineering drawings and the probability of collecting the overlapped abnormal points, and then identifying the engineering drawings; anti-collection processing is only carried out at the initial stage of engineering drawing identification and when the engineering drawing identification is finished; finally, determining the identification position;

the identifying of relevant data based on the determined data identification location comprises:

the processor identifies engineering drawings in an engineering drawing set T ═ { T1, T2, T3, T4, … …, tn }, wherein n is the number of the engineering drawings in the set, and p is the probability of collecting overlapping abnormal points in the identification process, and the method specifically comprises the following steps:

(1) counter is 0; calculating the number of the collected engineering drawing sets, and setting the number as 0 initially;

(2) m is n; the number of engineering drawings in an initial identification domain or a collected engineering drawing set is initially the number n of the engineering drawings;

(3) m is m p; calculating the quantity of engineering drawings in the collected engineering drawing set;

(4) counter + 1; adding 1 to the number of the collected engineering drawing sets;

(5) if m is larger than 1, then go to (3) to execute; otherwise, turning to (6) for execution;

(6) pressing the counter empty strings into a stack, and then starting engineering drawing identification;

(7) the processor sends a query command and a prefix according to a CT algorithm and queries the collected engineering drawing set in the identification domain;

(8) responding to the engineering drawing to be identified, and matching the prefix with the number of the engineering drawing to be identified, which receives the command; if the numbers are consistent, the rest part after the numbers are matched is sent to respond to the inquiry of the processor; if not, no response is made;

(9) the processor receives the response of the engineering drawing, if collision is detected, the recognition is failed, and the processor updates the prefix; if no collision is detected, the processor correctly identifies a tag; if the collection occurs in the identification process, the processor does not carry out any processing on the collected engineering drawing; automatically entering the collected engineering drawings into a collected engineering drawing set;

(10) if the processor does not receive the response of the engineering drawing, the counter is counter-1;

(11) if the counter is less than 0, finishing the engineering drawing identification; otherwise, the execution is switched to (7).

Another object of the present invention is to provide an engineering drawing management system applied to an information data processing terminal, the engineering drawing management system including:

the identification position determining module is used for determining the identification position of the acquired data;

the data identification module is used for identifying related data based on the determined data identification position;

the optimization module is used for performing optimized display on the data representation;

the checking module is used for checking and verifying the generated engineering drawing and judging whether an error exists or not;

and the output module is used for outputting the project drawing which is checked to be correct.

It is a further object of the invention to provide a computer device comprising a memory and a processor, the memory storing a computer program which, when executed by the processor, causes the processor to perform the steps of:

collecting the generated related data of the engineering drawing, and determining an identification position of the collected related data of the engineering drawing;

identifying relevant data based on the determined data identification position; and optimizing, displaying and outputting the identification data.

Another object of the present invention is to provide a computer-readable storage medium storing a computer program, which, when executed by a processor, causes the processor to execute the engineering drawing management method.

Another object of the present invention is to provide an information data processing terminal, which is used for implementing the engineering drawing management method.

The invention also aims to provide application of the engineering drawing management method in the design of construction engineering drawings, traffic engineering drawings and urban planning engineering drawings.

By combining all the technical schemes, the invention has the advantages and positive effects that: the method can optimize the identification content of the labeled data of the engineering drawing; the invention optimizes the identifier checking position and the embodiment mode of the engineering drawing representation data. The invention can quickly determine the position of the data to be measured and measure the data; the invention can replace the existing manual engineering drawing inspection engineering and improve the accuracy of the engineering drawing.

According to the quantity of the engineering drawings and the probability of collecting the overlapped abnormal points, calculating the condition of collecting the overlapped abnormal points, and then identifying the engineering drawings; anti-collection processing is only carried out at the initial stage of engineering drawing identification and when the engineering drawing identification is finished; finally, determining the identification position; the processor identifies the engineering drawings in an engineering drawing set T ═ { T1, T2, T3, T4, … … and tn }, wherein n is the number of the engineering drawings in the set, and p is the probability of collecting overlapping abnormal points in the identification process.

The invention optimizes the data identification content checked by the staff of the inner and outer layer measurement drawing production line. And optimizing the positions and the embodiment modes of the data identifications viewed by the staff of the inner-layer and outer-layer measuring drawing production line. The engineering drawing is output by one key. The operation standardization is realized, the operation is avoided, the operation abnormity caused by artificial missing operation is avoided, and the trouble of a production line is avoided.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments of the present invention will be briefly described below, and it is obvious that the drawings described below are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an engineering drawing management system according to an embodiment of the present invention;

in the figure: 1. an engineering drawing automatic generation module; 2. a data acquisition module; 3. an identification position determination module; 4. a data identification module; 5. an optimization module; 6. an inspection module; 7. and an output module.

Fig. 2 is a flowchart of an engineering drawing management method according to an embodiment of the present invention.

Fig. 3 is a flowchart of a method for optimizing identification data according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail with reference to the following embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In view of the problems in the prior art, the present invention provides an engineering drawing management system, a management method, a computer device, a medium, and a terminal, and the present invention is described in detail below with reference to the accompanying drawings.

As shown in fig. 1, an engineering drawing management system provided in an embodiment of the present invention includes:

the automatic engineering drawing generation module 1 is used for automatically generating engineering drawings based on the determined engineering drawing formulation flow and the engineering drawing formulation rule;

the data acquisition module 2 is used for acquiring line width, line distance, SMD, BGA positions and other related data;

the identification position determining module 3 is used for determining the identification position of the acquired data;

the data identification module 4 is used for identifying related data based on the determined data identification position;

the optimization module 5 is used for performing optimized display on the data representation;

the checking module 6 is used for checking and verifying the generated engineering drawing and judging whether an error exists or not;

and the output module 7 is used for outputting the project drawing which is checked to be correct.

As shown in fig. 2, the engineering drawing management method provided in the embodiment of the present invention includes the following steps:

s101, automatically growing the engineering drawing based on the determined engineering drawing making flow and the engineering drawing making rule;

s102, collecting line width, line distance, SMD, BGA position and other related data; determining the identification position of the collected data;

s103, identifying related data based on the determined data identification position; performing optimized display on the data representation;

s104, checking and verifying the generated engineering drawing, and judging whether an error exists or not; and outputting the project drawing checked to be correct.

As shown in fig. 3, the method for optimizing identification data according to the embodiment of the present invention includes the following steps:

s201, making an automatic engineering drawing schedule; determining an abnormal point improvement scheme of the production line feedback engineering drawing;

s202, acquiring an improvement scheme of each module on the engineering measurement drawing, and determining a comprehensive improvement scheme of the engineering measurement drawing by combining each module, a production line and a quality guarantee improvement scheme;

and S203, determining an engineering drawing formulation rule, and constructing an engineering management system based on the determined engineering drawing formulation rule.

In step S201, before the engineering drawing automation schedule is formulated, an engineering drawing formulation flow needs to be determined.

In the invention, the step of determining the identification position of the collected data related to the engineering drawing comprises the following steps:

calculating the condition of collecting the overlapped abnormal points according to the quantity of the engineering drawings and the probability of collecting the overlapped abnormal points, and then identifying the engineering drawings; anti-collection processing is only carried out at the initial stage of engineering drawing identification and when the engineering drawing identification is finished; finally, determining the identification position;

the identifying of relevant data based on the determined data identification location comprises:

the processor identifies engineering drawings in an engineering drawing set T ═ { T1, T2, T3, T4, … …, tn }, wherein n is the number of the engineering drawings in the set, and p is the probability of collecting overlapping abnormal points in the identification process, and the method specifically comprises the following steps:

(1) counter is 0; calculating the number of the collected engineering drawing sets, and setting the number as 0 initially;

(2) m is n; the number of engineering drawings in an initial identification domain or a collected engineering drawing set is initially the number n of the engineering drawings;

(3) m is m p; calculating the quantity of engineering drawings in the collected engineering drawing set;

(4) counter + 1; adding 1 to the number of the collected engineering drawing sets;

(5) if m is larger than 1, then go to (3) to execute; otherwise, turning to (6) for execution;

(6) pressing the counter empty strings into a stack, and then starting engineering drawing identification;

(7) the processor sends a query command and a prefix according to a CT algorithm and queries the collected engineering drawing set in the identification domain;

(8) responding to the engineering drawing to be identified, and matching the prefix with the number of the engineering drawing to be identified, which receives the command; if the numbers are consistent, the rest part after the numbers are matched is sent to respond to the inquiry of the processor; if not, no response is made;

(9) the processor receives the response of the engineering drawing, if collision is detected, the recognition is failed, and the processor updates the prefix; if no collision is detected, the processor correctly identifies a tag; if the collection occurs in the identification process, the processor does not carry out any processing on the collected engineering drawing; automatically entering the collected engineering drawings into a collected engineering drawing set;

(10) if the processor does not receive the response of the engineering drawing, the counter is counter-1;

(11) if the counter is less than 0, finishing the engineering drawing identification; otherwise, the execution is switched to (7).

The technical effects of the present invention will be further described with reference to specific embodiments.

Example 1:

1. the engineering drawing operation checks as follows:

1.1 operating flow of combing engineering drawings, making engineering drawings including the identification of line width, line distance, SMD, BGA position and identification data filling, aiming at quickly finding the position to be measured and measuring the data by the production line

1.2 the manual work content is more in the engineering drawing making process, and the existing engineering drawing making mode has personnel checking and judging operation.

2. The production line feedback problem is as follows:

2.1 the phenomenon that the identification position is overlapped with other representation positions exists in the process of consulting the engineering drawing.

2.2 the problem that the data of the identification position and the identification position are not aligned exists in the process of looking up the engineering drawing.

2.3 consult the problem that the line width of the project paper has not remarked the impedance line.

2.4 the problem of missing the engineering drawing in the production line feedback.

3. The scheme is as follows:

3.1 formulating an automatic schedule of engineering drawings

And 3.2, discussing an abnormal point improvement scheme of the production line feedback engineering drawing.

3.3 discuss improvement of engineering measurement drawings of each module responsible person.

And 3.4, communication and discussion are carried out on the responsible person of each module, a production line and a product guarantee aiming at the optimized and changed part of the engineering measurement drawing, and the data are agreed.

And 3.5, re-formulating the manufacturing rule of the engineering drawing so as to facilitate the development of an automatic script program.

3.6 automated script program development and testing.

And 3.7, the module is responsible for training and online using the engineering quantity mapping.

The above description is only for the purpose of illustrating the present invention and the appended claims are not to be construed as limiting the scope of the invention, which is intended to cover all modifications, equivalents and improvements that are within the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. The engineering drawing management method is applied to an information data processing terminal and comprises the following steps:

collecting the generated related data of the engineering drawing, and determining an identification position of the collected related data of the engineering drawing;

identifying relevant data based on the determined data identification position; and optimizing, displaying and outputting the identification data.

2. The engineering drawing management method according to claim 1, wherein the generated engineering drawing is automatically grown based on a determined engineering drawing formulation flow and an engineering drawing formulation rule;

the relevant data includes: line width, line spacing, SMD, BGA position data.

3. The engineering drawing management method of claim 1, wherein the optimizing the identification data comprises:

determining an engineering drawing making process;

making an engineering drawing automatic schedule;

acquiring an improvement scheme related to an engineering measurement drawing;

and determining an engineering drawing formulation rule and constructing an engineering management system.

4. The engineering drawing management method of claim 1, wherein the formulating an engineering drawing automation schedule comprises: determining an abnormal point improving mode of the production line feedback engineering drawing;

the scheme for obtaining the improvement of the engineering measurement drawing comprises the following steps:

the identification position of the engineering drawing is overlapped with other representation positions to be adjusted;

adjusting the data of the identification position and the identification position of the engineering drawing;

and adjusting the impedance line with the line width marked on the engineering drawing without remarking.

5. The engineering drawing management method of claim 1, wherein the determining an identification position for the collected engineering drawing related data comprises:

calculating the condition of collecting the overlapped abnormal points according to the quantity of the engineering drawings and the probability of collecting the overlapped abnormal points, and then identifying the engineering drawings; anti-collection processing is only carried out at the initial stage of engineering drawing identification and when the engineering drawing identification is finished; finally, determining the identification position;

the identifying of relevant data based on the determined data identification location comprises:

the processor identifies engineering drawings in an engineering drawing set T ═ { T1, T2, T3, T4, … …, tn }, wherein n is the number of the engineering drawings in the set, and p is the probability of collecting overlapping abnormal points in the identification process, and the method specifically comprises the following steps:

(1) counter is 0; calculating the number of the collected engineering drawing sets, and setting the number as 0 initially;

(2) m is n; the number of engineering drawings in an initial identification domain or a collected engineering drawing set is initially the number n of the engineering drawings;

(3) m is m p; calculating the quantity of engineering drawings in the collected engineering drawing set;

(4) counter + 1; adding 1 to the number of the collected engineering drawing sets;

(5) if m is larger than 1, then go to (3) to execute; otherwise, turning to (6) for execution;

(6) pressing the counter empty strings into a stack, and then starting engineering drawing identification;

(7) the processor sends a query command and a prefix according to a CT algorithm and queries the collected engineering drawing set in the identification domain;

(8) responding to the engineering drawing to be identified, and matching the prefix with the number of the engineering drawing to be identified, which receives the command; if the numbers are consistent, the rest part after the numbers are matched is sent to respond to the inquiry of the processor; if not, no response is made;

(9) the processor receives the response of the engineering drawing, if collision is detected, the recognition is failed, and the processor updates the prefix; if no collision is detected, the processor correctly identifies a tag; if the collection occurs in the identification process, the processor does not carry out any processing on the collected engineering drawing; automatically entering the collected engineering drawings into a collected engineering drawing set;

(10) if the processor does not receive the response of the engineering drawing, the counter is counter-1;

(11) if the counter is less than 0, finishing the engineering drawing identification; otherwise, the execution is switched to (7).

6. The engineering drawing management system is applied to an information data processing terminal and comprises:

the identification position determining module is used for determining the identification position of the acquired data;

the data identification module is used for identifying related data based on the determined data identification position;

the optimization module is used for performing optimized display on the data representation;

the checking module is used for checking and verifying the generated engineering drawing and judging whether an error exists or not;

and the output module is used for outputting the project drawing which is checked to be correct.

7. A computer device, characterized in that the computer device comprises a memory and a processor, the memory storing a computer program which, when executed by the processor, causes the processor to carry out the steps of:

collecting the generated related data of the engineering drawing, and determining an identification position of the collected related data of the engineering drawing;

identifying relevant data based on the determined data identification position; and optimizing, displaying and outputting the identification data.

8. A computer-readable storage medium storing a computer program which, when executed by a processor, causes the processor to execute the engineering drawing management method according to any one of claims 1 to 5.

9. An information data processing terminal, characterized in that the information data processing terminal is used for realizing the engineering drawing management method of any one of claims 1 to 5.

10. An application of the engineering drawing management method of any one of claims 1 to 5 in the design of construction engineering drawings, traffic engineering drawings and urban planning engineering drawings.

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