CN117313633B - Electrical design system - Google Patents

Abstract

The invention discloses an electrical design system, which relates to the technical field of electrical design and comprises a data acquisition module, a data analysis module, a design data table application level judgment module and a display module; the method solves the technical problems that the reliability and the availability of the electrical schematic design data table generated in each application scene cannot be judged, so that a user cannot intuitively know the implementation accuracy of the electrical schematic design data table generated in each application scene; through the application grades corresponding to the application scenes, the application coefficients of the design data table corresponding to the application scenes and the electrical appliance schematic diagram design data table generated under the application scenes are simultaneously displayed in a visual mode, so that a user can more intuitively know and identify the credibility and the usability of the electrical appliance schematic diagram design data table generated under the application scenes.

Description

Electrical design system

Technical Field

The invention relates to the technical field of electrical design, in particular to an electrical design system.

Background

An electrical design system and method is disclosed in patent publication number CN110222402 a. The invention constructs the electrical appliance design, only needs the user to input the design parameters to generate the completely structured data and upload the completely structured data to the server for calculation, the client generates the structured result data according to the specification and connection relation of the electrical appliance components, and generates the electrical appliance schematic diagram design data table based on the structured result data, the necessary parameters in the application scene and the configuration application scene of the electrical equipment are selected, and then the necessary parameters are uploaded to the server for calculation and returned to the client for outputting the design result, so that the process of drawing a picture by a little by the existing software is omitted, the time of electrical design is further shortened, the working efficiency of the electrical design is greatly accelerated, the rationality of the electrical design is ensured, the electrical design mode is standardized, and the electrical design system for reducing the probability of electrical design errors comprises the client and the server;

However, in the process of generating the electrical schematic design data table according to the application scenes, the reliability and availability of the electrical schematic design data table generated in each application scene cannot be judged, so that a user cannot intuitively understand the implementation accuracy of the electrical schematic design data table generated in each application scene, and based on the reliability and availability, an electrical design system is provided.

Disclosure of Invention

The invention aims to provide an electrical design system, which solves the technical problem that in the process of generating an electrical schematic design data table according to application scenes, the reliability and usability of the electrical schematic design data table generated in each application scene cannot be judged, so that a user cannot intuitively know the implementation accuracy of the electrical schematic design data table generated in each application scene.

The aim of the invention can be achieved by the following technical scheme:

An electrical design system, comprising:

The data acquisition module is used for acquiring the icon data and the modification data of the n electrical appliance schematic diagram design data tables from each application scene respectively and sending the icon data and the modification data to the data analysis module; the icon data comprise the number of literal symbols, the number of electric elements and the number of connecting lines corresponding to the electric elements, which correspond to different electric appliance schematic diagram design data tables in various application scenes, and the modification data comprise the number of literal symbol modification, the number of electric element modification and the number of element connecting lines corresponding to the electric element modification, wherein n is more than or equal to 1;

The data analysis module is used for analyzing the icon data and the modification data of the n different electrical appliance schematic diagram design data tables respectively acquired from each application scene, obtaining the application coefficients of the design data tables respectively corresponding to each application scene according to analysis results, and simultaneously sending the application coefficients to the application grade judgment module of the design data tables;

The design data table application level judging module is used for acquiring the application coefficients of the design data table corresponding to each application scene, analyzing the application coefficients, acquiring the application level corresponding to each application scene according to the analysis result and sending the application level to the display module.

The specific mode for generating the application coefficients of the design data table corresponding to each application scene by using the method provided by the invention is as follows:

s1: randomly selecting an application scene from all application scenes as a target application scene;

s2: randomly selecting one electrical schematic design data table from n electrical schematic design data tables of a target application scene as a target design data table;

s3: marking each electric element in the target design data table as D1, D2, … and Dj respectively;

S4: the number of connecting lines corresponding to all the electrical elements in the target design data table is marked as L11, L12, … and L1 j, wherein j refers to the number of the electrical elements corresponding to the target design data table, and j is more than or equal to 1

S5: obtaining the number of element connecting lines corresponding to the electric element modification in the target design data table, and marking the number as L21, L22, … and L2x respectively, wherein x refers to the number of electric element modification corresponding to the target design data table, j is larger than or equal to x is larger than or equal to 1,

S6: by the formulaCalculating to obtain a line modification coefficient c1 corresponding to the target design data table, wherein j is more than or equal to x is more than or equal to i is more than or equal to 1, and j is more than or equal to a is more than or equal to 1;

s7: calculating to obtain an implementation coefficient h1 corresponding to the target design data table through a formula c1×β1+d1×β2+g1×β3=h1, wherein d1 is an electrical appliance modification coefficient, g1 is a symbol modification coefficient, and β1, β2 and β3 are preset coefficients;

s8: repeating the steps S2-S7, namely obtaining the implementation coefficients respectively corresponding to the n electrical schematic diagram design data tables of the target application scene, and marking the implementation coefficients as h1, h2, … and hn respectively;

meanwhile, carrying out averaging treatment on n implementation coefficients h1, h2, … and hn to obtain hp, and marking the hp as an application coefficient w1 of a target application scene electrical schematic design data table;

S9: and repeating the steps S1-S8, so that the application coefficients of the design data table corresponding to each application scene can be obtained, and meanwhile, the application coefficients are marked as w1, w2, … and wv, wherein v is expressed as the number corresponding to the application scene, and the number serving as the application scene is bound with the application coefficients of the design data table of the electrical schematic diagram of the corresponding application scene.

As a further scheme of the invention, the electrical appliance modification coefficient d1 corresponding to the target design data table can be obtained through calculation by the formula x/j=d1, wherein x refers to the number of electrical appliance element modifications corresponding to the target design data table, and j refers to the number of electrical appliance elements corresponding to the target design data table.

As a further scheme of the invention, the number of character symbol modifications in the target design data table is marked as e1, the number of character symbols in the target design data table is marked as f1, and the symbol modification coefficient g1 corresponding to the target design data table is obtained through calculation by using a formula of e 1/f1=g1.

The specific way for acquiring the application grade corresponding to each application scene as a further scheme of the invention is as follows:

And comparing and analyzing the application coefficients w1, w2, … and wv of the design data table corresponding to each application scene with the intervals [ Y1, Y2], marking the application scenes with the application coefficients of the design data table in the intervals [ Y1, Y2] as secondary application scenes, marking the application scenes with the application coefficients of the design data table larger than Y2 as tertiary application scenes, marking the application scenes with the application coefficients of the design data table smaller than Y1 as primary application scenes, wherein both Y1 and Y2 are preset coefficients.

The invention further comprises a marking module;

the marking module is used for repeating the step after finishing the step S6 of the data analysis module to obtain the line modification coefficient cn, the electrical appliance modification coefficient dn and the symbol modification coefficient gn which are respectively corresponding to the n electrical appliance schematic diagram design data tables of the target application scene;

Respectively carrying out averaging treatment on the n line modification coefficients cn, the electrical appliance modification coefficient dn and the symbol modification coefficient gn to obtain a line modification value cp, an electrical appliance modification value dp and a symbol modification coefficient gp corresponding to a target application scene;

When cp is more than Y3, generating a line inspection signal, and when cp is less than or equal to Y3, not performing any treatment; when dp is more than Y4, generating an electrical appliance checking signal, and when dp is less than or equal to Y4, not performing any processing; when gp is more than Y5, generating a sign inspection signal, and when gp is less than or equal to Y5, not performing any treatment, wherein Y3, Y4 and Y5 are all preset coefficients;

and repeating the steps to obtain a line inspection signal, an electric appliance inspection signal or a symbol inspection signal corresponding to each application scene, and binding the line inspection signal, the electric appliance inspection signal or the symbol inspection signal with each application scene.

The display module is used for displaying the electrical schematic diagram design data table generated under each application scene and simultaneously displaying the application level of the corresponding application scene and the corresponding line inspection signal, electrical inspection signal or symbol inspection signal of each application scene.

The invention has the beneficial effects that:

(1) According to the invention, through analyzing and judging the number of literal symbols, the number of electric elements and the number of connecting wires corresponding to the electric elements in different electric appliance schematic diagram design data tables in each application scene, the number of literal symbol modification, the number of electric element modification and the number of element connecting wires corresponding to the electric element modification, the application grade corresponding to each application scene is obtained, so that the application coefficient of the design data table corresponding to each application scene and the electric appliance schematic diagram design data table generated in each application scene are simultaneously visualized, and a user can more intuitively know and recognize the credibility and usability of the electric appliance schematic diagram design data table generated in each application scene;

(2) According to the invention, the circuit check information, the electric appliance check signal or the symbol check signal of each application scene are displayed while the electric appliance schematic diagram design data table generated in each application scene is displayed, so that a user is prompted that the electric appliance schematic diagram design data table generated in each application scene possibly has abnormal circuits, electric appliances or symbols and errors, and the user can conveniently and specifically verify and modify the electric appliance schematic diagram design data table according to the circuit check information, the electric appliance check signal or the symbol check signal, thereby improving the overall accuracy and efficiency of the electric appliance schematic diagram design data table.

Drawings

The invention is further described below with reference to the accompanying drawings.

FIG. 1 is a schematic diagram of a system frame structure of an electrical design system according to the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

Referring to fig. 1, the present invention is an electrical design system, which includes a data acquisition module, a data analysis module, a design data table application level determination module, and a display module;

The data acquisition module is used for acquiring icon data and modification data of n electrical appliance schematic diagram design data tables from each application scene respectively and sending the icon data to the data analysis module, wherein the icon data comprise the number of literal symbols, the number of electrical appliance elements and the number of connecting wires corresponding to the electrical appliance elements corresponding to the different electrical appliance schematic diagram design data tables in each application scene, the modification data comprise the number of literal symbols, the number of electrical appliance element modification and the number of element connecting wires corresponding to the electrical appliance element modification, and n is more than or equal to 1;

It should be noted that, the text symbol refers to the number of letters, numbers and other text characters in the electrical schematic design data table, and the number of text symbols is used to represent the number of text symbols used in the electrical schematic; the number of the electrical components refers to the number of the electrical components involved in an electrical schematic design data table, and the electrical components refer to electrical components such as resistors, capacitors, inductors and the like; the number of the connecting wires refers to the number of the connecting wires connected with the electrical components, and the electrical components are connected through the connecting wires to form a circuit in an electrical schematic diagram;

The data analysis module is used for analyzing the icon data and the modification data of the n different electrical appliance schematic diagram design data tables respectively acquired from each application scene, obtaining the design data table application coefficients respectively corresponding to each application scene through analysis results, and simultaneously sending the design data table application coefficients to the design data table application level judgment module, wherein the specific mode for generating the design data table application coefficients corresponding to each application scene is as follows:

s1: randomly selecting an application scene from all application scenes as a target application scene;

s2: randomly selecting one electrical schematic design data table from n electrical schematic design data tables of a target application scene as a target design data table;

s3: marking each electric element in the target design data table as D1, D2, … and Dj respectively;

S4: the number of connecting lines corresponding to all the electrical elements in the target design data table is marked as L11, L12, … and L1 j, wherein j refers to the number of the electrical elements corresponding to the target design data table, and j is more than or equal to 1

S5: obtaining the number of element connecting lines corresponding to the electric element modification in the target design data table, and marking the number as L21, L22, … and L2x respectively, wherein x refers to the number of electric element modification corresponding to the target design data table, j is larger than or equal to x is larger than or equal to 1,

S6: by the formulaCalculating to obtain a line modification coefficient c1 corresponding to the target design data table, wherein j is more than or equal to x is more than or equal to i is more than or equal to 1, and j is more than or equal to a is more than or equal to 1;

Calculating to obtain an electric appliance modification coefficient d1 corresponding to the target design data table through a formula x/j=d1, marking the number of character symbol modifications in the target design data table as e1, marking the number of character symbols in the target design data table as f1, and calculating to obtain a symbol modification coefficient g1 corresponding to the target design data table through the formula e 1/f1=g1;

S7: calculating and obtaining an implementation coefficient h1 corresponding to the target design data table through a formula c1×β1+d1×β2+g1×β3=h1, wherein β1, β2 and β3 are preset coefficients, and specific numerical values are drawn up by related staff according to experience;

s8: repeating the steps S2-S7, namely obtaining the implementation coefficients respectively corresponding to the n electrical schematic diagram design data tables of the target application scene, and marking the implementation coefficients as h1, h2, … and hn respectively;

meanwhile, carrying out averaging treatment on n implementation coefficients h1, h2, … and hn to obtain hp, and marking the hp as an application coefficient w1 of a target application scene electrical schematic design data table;

S9: repeating the steps S1-S8, so that application coefficients of the design data table corresponding to each application scene can be obtained, and meanwhile, the application coefficients are marked as w1, w2, … and wv, wherein v is expressed as the number corresponding to the application scene, and the number serving as the application scene is bound with the application coefficients of the design data table of the electrical schematic diagram of the corresponding application scene;

by calculating the application coefficients of the design data tables corresponding to the application scenes, the design data tables of the electrical appliance schematic diagrams generated by the different application scenes can be evaluated to obtain the application implementation accuracy degree, and the smaller the application coefficients of the design data tables corresponding to the application scenes are, the larger the implementation accuracy of the electrical appliance schematic diagram design data tables generated by the corresponding application scenes in actual application is, and the smaller the implementation accuracy of the electrical appliance schematic diagram design data tables generated by the corresponding application scenes is, otherwise;

The design data table application grade judging module is used for acquiring the application coefficients of the design data table corresponding to each application scene, analyzing the application coefficients, acquiring the application grade corresponding to each application scene according to the analysis result, and sending the application grade to the display module, wherein the specific mode for acquiring the application grade corresponding to each application scene is as follows:

Comparing and analyzing the application coefficients w1, w2, … and wv of the design data table corresponding to each application scene with the intervals [ Y1, Y2], marking the application scenes with the application coefficients of the design data table in the intervals [ Y1, Y2] as secondary application scenes, marking the application scenes with the application coefficients of the design data table larger than Y2 as tertiary application scenes, marking the application scenes with the application coefficients of the design data table smaller than Y1 as primary application scenes, wherein both Y1 and Y2 are preset coefficients, and the specific numerical values are planned by related workers according to experience;

It should be noted that, the recommended implementation degree of the electrical schematic design data table generated by the first-level application scene is higher than that of the second-level application scene, and the recommended implementation degree of the electrical schematic design data table generated by the second-level application scene is higher than that of the third-level application scene;

The calculated line modification coefficients and element modification coefficients may be used to measure modification of the target design data table, and the calculated implementation coefficients and application coefficients may be used to compare implementation of different data tables. The calculation steps can provide quantitative indexes to help evaluate the accuracy and applicability of the electrical schematic design data sheet;

The display module is used for displaying the electrical schematic diagram design data table generated in each application scene and simultaneously displaying the application level of the corresponding application scene, so that the application coefficient of the design data table corresponding to each application scene and the electrical schematic diagram design data table generated in each application scene are simultaneously visualized, and a user can more intuitively know and identify the credibility and availability of the electrical schematic diagram design data table generated in each application scene;

The number of literal symbols, the number of electric elements and the number of connecting wires corresponding to the electric elements are analyzed and judged, so that the application level corresponding to each application scene is obtained, the application coefficient of the design data table corresponding to each application scene and the generated electric schematic design data table in each application scene are simultaneously displayed in a visual mode, and a user can more intuitively know and identify the credibility and usability of the electric schematic design data table in each application scene;

Example two

As a second embodiment of the present application, when the present application is implemented, compared with the first embodiment, the technical solution of the present embodiment is different from the first embodiment only in that the present embodiment further includes a marking module;

the marking module is used for repeating the step after finishing the step S6 of the data analysis module to obtain the line modification coefficient cn, the electrical appliance modification coefficient dn and the symbol modification coefficient gn which are respectively corresponding to the n electrical appliance schematic diagram design data tables of the target application scene;

Respectively carrying out averaging treatment on the n line modification coefficients cn, the electrical appliance modification coefficient dn and the symbol modification coefficient gn to obtain a line modification value cp, an electrical appliance modification value dp and a symbol modification coefficient gp corresponding to a target application scene;

When cp is more than Y3, generating a line inspection signal, and when cp is less than or equal to Y3, not performing any treatment; when dp is more than Y4, generating an electrical appliance checking signal, and when dp is less than or equal to Y4, not performing any processing; when gp is more than Y5, generating a sign inspection signal, and when gp is less than or equal to Y5, not performing any treatment, wherein Y3, Y4 and Y5 are all preset coefficients, and specific numerical values are drawn up by related staff according to experience;

repeating the steps to obtain a line inspection signal, an electric appliance inspection signal or a symbol inspection signal corresponding to each application scene, and binding the line inspection signal, the electric appliance inspection signal or the symbol inspection signal with each application scene;

When the circuit check signals, the electric appliance check signals or the symbol check signals of all application scenes are displayed at the same time when the electric appliance schematic diagram design data table generated under all application scenes is displayed, the electric appliance schematic diagram design data table generated under all application scenes by a user is prompted to possibly have abnormal circuits, electric appliances or symbols and errors, the user can conduct targeted verification and modification according to the circuit check signals, the electric appliance check signals or the symbol check signals conveniently, and the overall accuracy and efficiency of the electric appliance schematic diagram design data table are improved;

Example III

As an embodiment three of the present application, in the implementation of the present application, the technical solution of the present embodiment is to combine the solutions of the above embodiment one and embodiment two compared with the embodiment one and embodiment two.

The above formulas are all formulas with dimensionality removed and numerical calculation, the formulas are formulas with the latest real situation obtained by software simulation through collecting a large amount of data, and preset parameters and threshold selection in the formulas are set by those skilled in the art according to the actual situation.

The foregoing is merely illustrative of the present application, and the present application is not limited thereto, and any person skilled in the art will readily recognize that variations or substitutions are within the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (3)

1. An electrical design system, comprising:

The data acquisition module is used for acquiring the icon data and the modification data of the n electrical appliance schematic diagram design data tables from each application scene respectively and sending the icon data and the modification data to the data analysis module; the icon data comprise the number of literal symbols, the number of electric elements and the number of connecting lines corresponding to the electric elements, which correspond to different electric appliance schematic diagram design data tables in various application scenes, and the modification data comprise the number of literal symbol modification, the number of electric element modification and the number of element connecting lines corresponding to the electric element modification, wherein n is more than or equal to 1;

The data analysis module is used for analyzing the icon data and the modification data of the n different electrical appliance schematic diagram design data tables respectively acquired from each application scene, obtaining the application coefficients of the design data tables respectively corresponding to each application scene according to analysis results, and simultaneously sending the application coefficients to the application grade judgment module of the design data tables;

The design data table application level judging module is used for acquiring the application coefficients of the design data table corresponding to each application scene, analyzing the application coefficients, acquiring the application level corresponding to each application scene according to the analysis result and sending the application level to the display module;

The specific mode for generating the application coefficients of the design data table corresponding to each application scene is as follows:

s1: randomly selecting an application scene from all application scenes as a target application scene;

s2: randomly selecting one electrical schematic design data table from n electrical schematic design data tables of a target application scene as a target design data table;

s3: marking each electric element in the target design data table as D1, D2, … and Dj respectively;

S4: the number of the connecting lines corresponding to each electrical element in the target design data table is marked as L11, L12, … and L1 j, wherein j refers to the number of the corresponding electrical elements in the target design data table, and j is more than or equal to 1;

S5: obtaining the number of element connecting lines corresponding to the electric element modification in the target design data table, and marking the number as L21, L22, … and L2x respectively, wherein x refers to the number of electric element modification corresponding to the target design data table, j is larger than or equal to x is larger than or equal to 1,

S6: by the formulaCalculating to obtain a line modification coefficient c1 corresponding to the target design data table, wherein j is more than or equal to x is more than or equal to i is more than or equal to 1, and j is more than or equal to a is more than or equal to 1;

s7: calculating to obtain an implementation coefficient h1 corresponding to the target design data table through a formula c1×β1+d1×β2+g1×β3=h1, wherein d1 is an electrical appliance modification coefficient, g1 is a symbol modification coefficient, and β1, β2 and β3 are preset coefficients;

s8: repeating the steps S2-S7, namely obtaining the implementation coefficients respectively corresponding to the n electrical schematic diagram design data tables of the target application scene, and marking the implementation coefficients as h1, h2, … and hn respectively;

meanwhile, carrying out averaging treatment on n implementation coefficients h1, h2, … and hn to obtain hp, and marking the hp as an application coefficient w1 of a target application scene electrical schematic design data table;

S9: repeating the steps S1-S8, so that application coefficients of the design data table corresponding to each application scene can be obtained, and meanwhile, the application coefficients are marked as w1, w2, … and wv, wherein v is expressed as the number corresponding to the application scene, and the number serving as the application scene is bound with the application coefficients of the design data table of the electrical schematic diagram of the corresponding application scene;

The electric appliance modification coefficient d1 corresponding to the target design data table can be calculated and obtained through the formula x/j=d1, wherein x refers to the modification number of the corresponding electric appliance elements in the target design data table, and j refers to the number of the corresponding electric appliance elements in the target design data table;

Marking the number of character symbol modifications in a target design data table as e1, marking the number of character symbols in the target design data table as f1, and calculating to obtain a symbol modification coefficient g1 corresponding to the target design data table by using a formula with e 1/f1=g1;

the specific mode for acquiring the application grade corresponding to each application scene is as follows:

And comparing and analyzing the application coefficients w1, w2, … and wv of the design data table corresponding to each application scene with the intervals [ Y1, Y2], marking the application scenes with the application coefficients of the design data table in the intervals [ Y1, Y2] as secondary application scenes, marking the application scenes with the application coefficients of the design data table larger than Y2 as tertiary application scenes, marking the application scenes with the application coefficients of the design data table smaller than Y1 as primary application scenes, wherein both Y1 and Y2 are preset coefficients.

2. The electrical design system of claim 1, further comprising a marking module;

the marking module is used for repeating the step after finishing the step S6 of the data analysis module to obtain the line modification coefficient cn, the electrical appliance modification coefficient dn and the symbol modification coefficient gn which are respectively corresponding to the n electrical appliance schematic diagram design data tables of the target application scene;

Respectively carrying out averaging treatment on the n line modification coefficients cn, the electrical appliance modification coefficient dn and the symbol modification coefficient gn to obtain a line modification value cp, an electrical appliance modification value dp and a symbol modification coefficient gp corresponding to a target application scene;

When cp is more than Y3, generating a line inspection signal, and when cp is less than or equal to Y3, not performing any treatment; when dp is more than Y4, generating an electrical appliance checking signal, and when dp is less than or equal to Y4, not performing any processing; when gp is more than Y5, generating a sign inspection signal, and when gp is less than or equal to Y5, not performing any treatment, wherein Y3, Y4 and Y5 are all preset coefficients;

and repeating the steps to obtain a line inspection signal, an electric appliance inspection signal or a symbol inspection signal corresponding to each application scene, and binding the line inspection signal, the electric appliance inspection signal or the symbol inspection signal with each application scene.

3. The electrical design system according to claim 2, wherein the display module is configured to display the electrical schematic design data table generated in each application scenario, and simultaneously display the application level of the corresponding application scenario and the line inspection signal, the electrical inspection signal, or the symbol inspection signal corresponding to each application scenario.