CN112541728A - System and method for generating electric power material codes - Google Patents

Abstract

The invention relates to a generating system of electric power material codes, which comprises: the information authentication and authorization module: the system is used for carrying out information authentication, on-line training, classification and authority authorization on material coding personnel; the material standard coding system module: storing a material standard coding system tree; material coding data entry module: the system is used for carrying out primary input on the material coding data; material coding data auditing module: the system is used for performing secondary audit on the primary input coded data; material coding data approval module: the system is used for carrying out three-level examination and approval on the coded data passing the second-level examination and approval; a weight removing module: the device is used for carrying out rearrangement and verification uniqueness on the coded data; automatic input module of goods and materials coding data: automatic input of material coding data is realized; the code generation release module: compared with the prior art, the method has the advantages of improving the material coding efficiency and reliability and the like.

Description

System and method for generating electric power material codes

Technical Field

The invention relates to the field of power generation enterprise material codes, in particular to a method and a system for generating an electric power material code.

Background

The material coding is a management tool which represents materials, names, specifications or categories and other related matters by short characters, symbols or numbers, and is especially important in hundreds of enterprises such as power generation enterprises.

At present, a material coding system of a power generation enterprise is narrow in application range, poor in compatibility and fixed in mode, material coding performed in a normal production process is not subject to rules, meanwhile, the conditions of one material with multiple codes and one code with multiple materials exist in the material coding generation process, and meanwhile, various complex power electrical equipment of the power generation enterprise are high in professional requirement during classification, so that the requirement on coding personnel is high, and the coding process is complex in operation, time and labor are wasted, and the utilization rate of personnel is low.

Chinese patent CN201610496379.9 discloses a material coding data processing method, which can effectively code a large number of materials, and realizes uniqueness and effectiveness of material coding, but it only provides a data processing mode and a coding mode for material coding, and how to combine the method to efficiently, simply and reliably generate material coding in the normal production process of each enterprise, and how to improve the efficiency, reliability and personnel utilization rate of material coding work, which becomes a new problem to be solved.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provide a method and a system for generating electric power material codes, which can improve the coding efficiency and the accuracy and reliability of the material codes.

The purpose of the invention can be realized by the following technical scheme:

a system for generating a power supply code, comprising:

the information authentication and authorization module: the system is used for performing information authentication, online training, classification and authority authorization on material coding personnel according to the configuration of a preset module;

the material standard coding system module: storing a material standard coding system tree which is used as a standard for material code generation;

material coding data entry module: the system is used for carrying out primary input on the material coding data;

material coding data auditing module: the system is used for performing secondary audit on the primary input coded data;

material coding data approval module: the system is used for carrying out three-level examination and approval on the coded data passing the second-level examination and approval;

a weight removing module: the system comprises a material coding data input module, a material coding data auditing module, a material coding data approving module and an automatic input module, wherein the material coding data input module, the material coding data auditing module, the automatic input module and the automatic input module are all used for inputting material coding data;

an automatic input module: the system is used for realizing automatic input of material coding data;

the code generation release module: and the global unified coding is generated for the coded data which passes the three-level approval and the rearrangement, and is released to an application system.

Further, the information authentication of the material coding personnel comprises the authentication of personal information, learning time and learning quality, wherein the learning quality can be measured by the accuracy of the exercise questions, and the classification of the material coding personnel comprises the classification of the material coding personnel into a coding group entry worker, a coding group examination and verification worker, a maintenance center examination and approval worker and a mark code group expert;

the authority of the code group entry member comprises: the use authority of the material coding data entry module;

the authority of the code group auditor comprises: the use authority of the material coding data entry module and the material coding data auditing module;

the authority of the maintenance center approver comprises the following steps: the use authority of the material coding data input module and the material coding data approval module and the maintenance authority of the material standard coding system module;

the authority of the code group expert comprises: and (4) coding the use permission of the system module by the material standard.

Further, in the material standard coding system module, the material standard coding system tree can be changed or added, and when receiving a request for perfecting the coding system, such as changing or adding, the material standard coding system module executes the steps of:

101) acquiring an application file for material standard code change or addition submitted by a code group input member;

102) obtaining a pre-examination result of an auditor of a code group for the application file;

103) obtaining the auditing result of the maintenance center approver for the application file;

104) obtaining the approval result of the code group expert on the audit result of the application file;

105) and updating the changed or added material standard codes to a material standard coding system according to the approval result.

Furthermore, the automatic material coding data entry module carries out digital twin on the productive equipment through 3D scanning modeling, and analyzes a nameplate and a 3D twin of the productive equipment by using image recognition, so that automatic entry of the material coding data is realized.

Furthermore, the material standard coding system tree includes a management classification code system, a material classification code system, a feature definition system, a reference measurement unit and a feature value system.

Further, when the code group entry member uses the material code data entry module, the material code data entry module executes the steps of:

201) acquiring a material classification code system selected by a code group input member in a material standard code system tree;

202) guiding the materials to enter the material classification code system and the characteristic definition system;

203) acquiring a characteristic value system and a reference unit input by a code group input member;

204) integrating the corresponding management code system, material code system, feature definition system, feature value system and reference measurement unit to form material code data.

Further, when the code group auditor uses the material code data auditing module, the material code data auditing module executes the steps of:

and obtaining a result of secondary audit of the goods and materials coded data by the code group auditor, if the result is not passed, feeding the audit result back to the goods and materials coded data entry module for primary entry again, and otherwise, outputting the goods and materials coded data.

Further, when the maintenance center approver uses the material code data approval module, the material code data approval module executes the steps of:

and obtaining a result of the three-stage approval of the goods and materials coded data by the maintenance center approver, if the result is not passed, feeding back the approval result to the goods and materials coded data entry module for primary entry again, and otherwise, outputting the goods and materials coded data.

Further, the rearrangement module executes the steps of:

301) carrying out duplication elimination on the material coded data formed in the material coded data entry module, if the duplication is repeated, automatically copying the material coded number, and terminating the application flow, otherwise, sending the material coded data to the material coded data auditing module;

302) the goods and materials coded data output by the goods and materials coded data auditing module are rearranged, if the goods and materials coded data are repeated, the goods and materials coded data are automatically copied, the application flow is stopped, and otherwise, the goods and materials coded data are sent to the goods and materials coded data approving module;

303) the goods and materials coded data output by the goods and materials coded data automatic input module are rearranged, if the goods and materials coded data are repeated, the goods and materials coded numbers are copied automatically, the application process is stopped, and otherwise, the goods and materials coded data are sent to the goods and materials coded data approval module;

304) and (4) carrying out duplicate removal on the material coded data output by the material coded data approval module, if the duplication is repeated, automatically copying the material coded number, and terminating the application process, otherwise, sending the material coded data to the code generation and distribution module.

Preferably, the system further comprises:

the material coding data maintenance module: the system is used for providing maintenance center approvers to maintain the material standard coding system module and the material coding data;

a multi-dimensional report module: the system is used for inquiring the coded data through different inquiry conditions and inquiry ranges and automatically generating a report;

information intelligence propelling movement module: the system is used for pushing and optimizing tree contents of a material coding system according to different authorities, pushing material coding data matched with semantic algorithms, pushing tasks to be handled and pushing learning tasks to material coding personnel.

A material code generating method of the power material code generating system comprises the following steps:

s1: acquiring whether the materials to be recorded are productive materials, if so, executing a step S2, otherwise, executing a step S4;

s2: the automatic input module carries out digital twinning on the productive equipment through 3D scanning modeling, analyzes a nameplate and a 3D twinborn body of the productive equipment by using image identification, and automatically inputs material coded data;

s3: the duplication elimination module is used for eliminating duplication of the material coded data which pass through the automatic input module, if the duplication is repeated, the material coded number is automatically copied, the application flow is terminated, and otherwise, the step S8 is executed;

s4: according to the material standard coding system tree, a material coding data entry module acquires primary entry data of material codes to form material coding data;

s5: the duplication elimination module is used for eliminating duplication of coded data formed in the material coded data entry module, if the coded data are repeated, the material coded number is automatically copied, the application flow is terminated, and otherwise, the step S6 is executed;

s6: the material coding data auditing module acquires the material coding data which passes the weight removal in the step S5, acquires the secondary auditing result of the material coding data, if the result is not passed, the step S4 is returned to be executed, otherwise, the step S7 is executed;

s7: the duplication elimination module is used for eliminating duplication of the coded data passing through the material coded data auditing module, if the duplication is repeated, the material coded number is automatically copied, the application flow is terminated, and otherwise, the step S8 is executed;

s8: the material coded data approval module acquires the material coded data which passes the weight removal in the step S3 or the step S7, acquires the three-level approval result of the material coded data, and if the result is that the material coded data does not pass, the material coded data is returned to execute the step S4, otherwise, the material coded data is executed to the step S9;

s9: the duplication elimination module is used for eliminating duplication of the coded data passing through the material coded data approval module, if the coded data are repeated, the material coded numbers are automatically copied, the application process is terminated, and otherwise, the step S10 is executed;

s10: the code generation issuing module acquires the material coding data subjected to the weight removal in the step S9, generates a global uniform coding number and issues the global uniform coding number to an application system;

s11: and the material standard coding system module updates and maintains the material standard coding system tree according to the change or addition request.

Compared with the prior art, the invention has the following advantages:

1) according to the invention, a reasonable and effective material coding standard is provided by arranging the material standard coding system module, and material coding, double-audit and approval and duplicate removal verification are carried out on a large number of materials according to the material standard coding system tree through the material coding data entry module, the material coding data audit module, the material coding data approval module, the automatic entry module and the duplicate removal module, so that the situations of one material with multiple codes and multiple materials with one code are effectively prevented, the uniform, scientific and unique coding of the materials is realized, the usability of the system can be enhanced on one hand, and the coding reliability can be improved on the other hand;

2) the invention carries out information authentication, on-line training, classification and authority authorization on material coding personnel by arranging the information authentication authorization module, and respectively grants different authorities to the material standard coding system module, the material coding data entry module, the material coding data auditing module, the material coding data approving module and the automatic entry module for material coding personnel with different degrees, so that the material coding personnel with different specialities can respectively carry out material coding entry, audit, approval and material standard coding system tree formulation and maintenance, the material coding personnel of various types are not mutually conflicted and associated, management basis interest instruments are provided for all levels of management layers, the user personnel range is widened, the professional performance of users is enhanced, the complexity of operation of material coding work is reduced, and the personnel utilization rate is improved, the personnel cost is reduced;

3) the standard coding system tree of the material consists of a management classification code system, a material classification code system, a characteristic definition system, a reference metering unit and a characteristic value system, when a coding group input member inputs material coded data, the material classification code system can be inquired and selected in a standard code system tree of the material, the input work of the material data can be completed only by adding the characteristic value system through the characteristic definition system, or a production device can be digitally twinned through 3D scanning modeling, and a nameplate and a 3D twinner of the production device are analyzed by using image identification, the material coded data are automatically input, or can be realized through copying of plant data, meanwhile, a rearrangement module is arranged, the newly input material coded data can be automatically tracked and rearranged in the whole process, and the operation is simple, greatly improving the efficiency of material coding work.

Drawings

FIG. 1 is a schematic diagram of the overall structure and flow of the system of the present invention;

FIG. 2 is a schematic flow chart of the method of the present invention.

The system comprises an information authentication authorization module, a material standard coding system module, a material coding data entry module, a material coding data auditing module, a material coding data approval module, a material duplication elimination module, a material coding data 7 automatic entry module, a code release module, a material coding data maintenance module, a multi-dimensional report table module, an information intelligent pushing module and a data management module, wherein the information authentication authorization module is 1, the material standard coding system module is 2, the material coding data entry module is 4, the material coding data auditing module is 5, the material coding data approval module is 6, the duplication elimination module is 7, the automatic.

Detailed Description

The invention is described in detail below with reference to the figures and specific embodiments. It is to be understood that the embodiments described are only a few embodiments of the present invention, and not all 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.

Examples

As shown in fig. 1, the present invention provides a system for generating an electric power material code, which mainly includes the following seven modules:

(1) information authentication and authorization module 1: the system is used for performing information authentication, online training, classification and authority authorization on material coding personnel according to the configuration of a preset module;

(2) material standard coding system module 2: storing a material standard coding system tree which is used as a standard for material coding generation;

(3) material coding data entry module 3: the system is used for carrying out primary input on the material coding data;

(4) material coding data auditing module 4: the system is used for performing secondary audit on the primary input coded data;

(5) material coding data approval module 5: the system is used for carrying out three-level approval on the coded data passing the second-level approval;

(6) and (3) a weight removal module 6: the system is used for verifying uniqueness of the code data in the material code data input module 3, the material code data auditing module, the material code data approving module 4 and the automatic input module 7;

(7) automatic material coding data entry module 7: the system is used for realizing automatic input of material coding data;

(8) the code generation release module 8: and the global unified coding is generated for the coded data passing through the three-level approval and the rearrangement and is distributed to the application system.

In addition, as a preferable scheme, the system can further comprise the following three modules:

(9) material coding data maintenance module 9: the system is used for providing maintenance center approvers to maintain the material standard coding system module 2 and the material coding data;

(10) the multidimensional reporting module 10: the system is used for inquiring the coded data through different inquiry conditions and inquiry ranges and automatically generating a report;

(11) information intelligence propelling movement module 11: the system is used for pushing and optimizing the tree content of the material coding system according to different authorities, pushing material coding data matched with the semantic algorithm, pushing a proxy task and pushing a learning task to material coding personnel.

The following describes each module in detail:

(1) information authentication authorization module 1

The module is mainly configured according to a preset module, and used for performing information authentication, online training, classification and authority authorization on material coding personnel, specifically, judging whether the material coding personnel meet online examination qualification or not, and authorizing corresponding authority after the examination is qualified.

The method comprises the steps that information authentication is carried out on material coding personnel, wherein the information authentication comprises authentication on personal information, learning time and learning quality, the learning quality is mainly measured through exercise accuracy, and the classification of the material coding personnel comprises the steps that the material coding personnel are divided into coding group entry personnel, coding group examination and verification personnel, maintenance center examination and approval personnel and mark code group experts;

the authority of the code group entry personnel comprises: the use authority of the material coding data entry module 3;

the authority of the code group auditor comprises: the use authority of the material coding data entry module 3 and the material coding data auditing module 4;

the authority of the maintenance center approver comprises the following steps: the use authority of the material coding data entry module 3 and the material coding data approval module 5 and the maintenance authority of the material standard coding system module 2;

the rights of the code group experts include: the material standard encodes the use authority of the system module 2.

The module performs the following steps:

configuring a material coding personnel account, and maintaining an identity card, a job number, a unit, a department, a position and a telephone to a domain user database for carrying out personal information authentication on the material coding personnel;

the online learning time of the goods and materials coding personnel is judged according to the configuration of a preset module, and whether the goods and materials coding personnel can take a certification examination or not is comprehensively evaluated by combining factory-resident centralized training, so that the learning time is certified;

and if the information authentication of the material coding personnel is qualified, classifying the material coding personnel and granting different authorities.

(2) Material standard coding system module 2

In the module, a code group expert can formulate a material standard coding system tree according to domestic and foreign standards, and a maintenance center approver can regularly maintain the system tree through a material coding data maintenance module 9.

In the using process, the material standard coding system tree can be changed or added, and the steps sequentially comprise:

the material standard coding system module 2 acquires material standard code change or adds application files submitted by the code group;

the maintenance center approver checks the change of the standard code of the goods and materials of the code group or adds an application file and a standard file, or checks the application content intelligently pushed by the system, and gives an audit result, and the module 2 of the standard code system of the goods and materials obtains the audit result;

the code group expert examines and approves the change or the addition application of the standard goods and materials code which passes the examination and approval, demonstrates the examination and approval result and provides the examination and approval result, and the standard goods and materials code system module 2 obtains the examination and approval result;

the maintenance center approver uses the material standard coding system module 2 to update the approval content to the material standard coding system tree;

and feeding back the final result to the coding group.

In this embodiment, the material standard coding system tree is composed of five parts, namely a management classification code system, a material classification code system, a feature definition system, a feature value system, and a reference measurement unit, and the coding system specifically includes:

the material coding system strictly distinguishes three classification characteristics, such as material production sources, technical characteristics, management functions and the like, and decomposes material codes into three independent classification combinations to realize the functions of material code identification, classification and sequencing.

1. And (3) managing a classified code system: the management classification code system is a basic classification guiding code which is set up for meeting the requirement of material classification index and facilitating material management, a material 'directory tree' is set up according to the use habit, and the basic classification guiding code is used for classifying, guiding, counting and the like of materials in the material management and is named as a material management classification code, the code is HA0013, and the coding rule is as follows:

the management classification code system adopts 12-bit equal-length Arabic digital codes, and the codes are fixed-length codes and divided into five layers. The first to third layers are denoted by 2-bit numbers, and the fourth and fifth layers are denoted by 3-bit numbers. The first layer code is 01-08; the codes of the second layer and the third layer are 00-99; the fourth and fifth level codes are 000-999. The code adopts a series of sequential codes which are respectively called as: major class, minor class, component, part.

The code structure is as follows:

wherein: 01-07 major part, divided into the first three layers: i.e. major class, minor class;

08 the major category is main equipment and parts, and two-layer classification of assemblies and parts is added on the basis of three layers of major category, minor category and minor category.

The classification of the management classification code system is based on the industrial source of the product and the property of the product, and is combined with practical application and classified according to the material management convention.

The management code system is the serial number of the material index, and can be used as a "guide code" or an "association code" of other codes. On the coding system, a corresponding relation is established by the attribute and basic standard codes such as a material classification code system, a material characteristic classification code, a material characteristic value and the like to form a material basic coding system, and applications such as guidance, identification, summarization, statistics, related classification and the like in material information processing are realized together.

08 major categories are formed according to 'power equipment and components' and by supplementing related equipment of each industry of Huaneng which is not included in the category, the category is a set of independent coding system, and can establish 'logic equipment' in an application system, the target description of the category is mainly based on a process system, partial system division is reserved, the same equipment is abstracted, two levels of 'components' and 'components' are subdivided under the equipment level, a component list in the form of an enterprise 'logic equipment' system tree is constructed, namely virtual BOM, classification abstraction of pure material attributes is not realized, and the category is not actual material classification, and the role is that:

A) establishing an incidence relation (entity BOM) between actual materials and logic equipment;

B) standardizing the names of spare parts in the material codes by the names of the parts under the logic equipment;

C) identifying a device location for spare parts supplies;

D) and establishing a related bridge of the physical device (KKS code) and the material.

2. Material classification code system (Material code main code)

The goods and materials classification code system is used for identifying a unique goods and materials name, data which is not available in an original code table is expanded according to the application requirement according to the framework principle of the national standard GB7635, the part which is inapplicable to the name expression of the original code table is modified, the name is named as goods and materials classification and code, the goods and materials classification and code is used for defining the unified goods and materials name and product name code, and the code number is HA 0003. The standard goods and materials name reference code HA0003 is the goods and materials classification code system. Example (c): 41271011 the name of the product is seamless steel tube, and the coding rule is:

the material classification code system adopts 10-bit Arabic numeral codes. The material classification is performed according to the classification mode of the national standard, namely the first eight-bit codes are divided into six layers. Wherein the first layer to the fifth layer are each represented by a 1-digit number. The first layer code is 0-9; the second-level to fifth-level codes are 1-9; the sixth level is represented by a three-digit number with codes 000-999, using a sequence code and a series of sequence codes. From front to back are respectively called: major classes, parts classes, major classes, middle classes, minor classes, and fine classes. The seventh layer is an extended class which is expressed by two digits and has a code of 00-99, and the layer is the extended class which is performed because some domestic standards cannot meet the use requirement.

The code structure is as follows:

wherein AAAAA is the International Standard part; BBB is part of national standards; the CC is an expansion on the basis of national standards according to application requirements.

The compiling method of the material classification code system comprises the following steps: when a material classification code system is compiled, when the code of the national standard GB7635 meets the application requirement, the classification code and the category name of the material classification code system are directly applied; when the national standard GB7635 classification refinement degree can not meet the application, the subsequent empty code part is used for supplementing under the corresponding classification, and a layer (seventh layer) 2-bit digital code is expanded.

3. Feature definition system

The characteristic definition system provides processable hidden codes with unified identification for the material management computer software, is automatically generated by coding system tool software and is a component of material coding, the characteristic definition system is used for determining the selection and the sequencing of characteristic attributes of each material, the rule is hidden in the characteristic codes, and the characteristic value is a basic data element forming the characteristic codes. The goods and materials coding not only realizes the goods and names identification, but also must describe and identify the subdivided varieties under each kind of goods and materials through the additional attributes of the goods and materials. The available feature code system for a certain name of material defines a plurality of material features. Each material has a group of characteristic values, and the characteristic identification code of the material is generated by the group of characteristic values. The characteristic identification code implies a characteristic code and consists of characteristic values.

The material characteristic code system is used for realizing standardization of material characteristic attribute classification. Named as 'Material characteristic code system', the code is HC0004, and its features include:

A) standardizing special attributes of complex and fussy materials;

B) the material characteristics are parameters for describing the material performance in more detail, and describe the properties of the materials together with the material source classification;

C) the characteristics of different materials are greatly different in meaning, representation method and the like;

D) the specification and model of the material are generally expressed by making a specification for the main characteristics of the material;

E) the degree of description of the material characteristics in the management is also variable.

The coding rule of the feature definition system is as follows: the standard material code only selects the necessary characteristic classification of the material in HC0004 & ltmaterial characteristic definition system & gt, determines the characteristic classification through enumeration of a material characteristic classification code library, and strictly specifies the sequence of the finally determined characteristic attribute. Example (c): 41271011 (materials classification code system) identifies the name of the materials as seamless steel pipe; the selected feature classification codes are as follows: (0310) an outer diameter; (0305) wall thickness; (0201) and (3) material quality. After determining three characteristic attributes of the seamless steel pipe, (0310) outer diameter; (0305) wall thickness; (0201) the order relationship of the materials is fixed and invariable. The material characteristic classification code adopts 4-bit Arabic numeral codes and is divided into two layers, wherein the first layer is called a class and is represented by numerals 01-99, and the second layer is a code and is represented by numerals 00-99.

The code structure is as follows:

the standard summarizes the product characteristic parameters related to materials into the following eight categories:

A) general characteristics, namely, expressing a plurality of different characteristics such as specification, model and the like in a standard mode;

B) material characteristics such as ceramic, steel, plastic, etc.;

C) geometric features such as length, width, height (thickness), diameter, wall thickness, etc.;

D) shape and structure characteristics such as installation form, outlet angle, etc.;

E) working mode characteristics such as a moving mode, a transmission mode, a rotating direction and the like;

F) performance characteristics such as output power, maximum measurement range, quality level, etc.;

G) operating environment characteristics such as input voltage, rated current, etc.;

H) manufacturer, design number, or other standard code.

In addition to the above eight categories, the necessary features, item 9, denormal features ("basic unit of measure", "original serial number", etc.), are added to facilitate data collation. The denormal characteristic is only used as a reference in material coding and is not used as a constituent element in the material characteristic coding. The basic metering unit is used for unifying material metering units, and one material can only use one basic metering unit. The 'original serial number' is used for converting new data and old data of material codes.

4. Characteristic value system

The collection of the characteristic value system is named as 'material characteristic value system', and the code is HC 0011. The characteristic value system is used for determining the standard value range of the related characteristics of various materials, and establishing the corresponding relation between the characteristic value of the materials and the characteristics of the materials so as to meet the requirements of the system on the refinement and the specification of basic data information of the materials, and the coding principle is as follows:

the characteristic value system adopts variable length codes, characteristic classification codes are used as a guide tree, the material characteristic values are identified by a default 7-bit serial number, and the code structure is as follows:

characteristic definition system (guide tree)

The value of the related characteristics of a certain name material is processed in two conditions:

A) the related characteristics of the materials have a value list with standard standards, and are selectively generated through enumeration of a material characteristic value library. Example (c): the outer diameter of the seamless steel tube (0310); (0305) wall thickness; (0201) the three characteristics of the material can be arranged into values according to the national standard, and are listed in HC0011 'material characteristic value' codes and directly quoted when in use.

B) And if the characteristic value cannot be sorted out to obtain the standard value, generating the characteristic value by adopting a random input mode.

In addition, the association relationship between the characteristic definite term value system and other codes is as follows:

the standard quotes HC0004 to determine the related attributes of the characteristic values of the materials, and the related attributes are used as a guide tree of a characteristic value system of the materials to determine the characteristic classification of the materials of the standard characteristic values; HA0003 'material classification and code' is cited as the relevant attributes of the characteristic values of the standard materials, the corresponding values of the material codes of the characteristic values are defined, and the filling rules are as follows:

A) the material characteristic value defined by national standard of related materials is directly quoted;

example (c): 41271011 seamless tube its characteristic "outside diameter"; the enumerated characteristic value of the wall thickness is taken from GB8162-1999 structural seamless steel pipe dimension specification, and is listed in Material characteristic value HC0011 code, and is directly quoted when in use.

B) The actual input characteristic value of the related material standard is directly quoted after being promoted into the coded data of the material characteristic value;

example (c): 3559101001 "Specification/model" of Universal packing; the "material" enumeration characteristic value is input data selected from each factory specification, and becomes characteristic value encoding data by "adding" and is directly referred to when in use.

C) For the characteristic that the characteristic value coding data cannot be formed, but the characteristic value with a standard format can be carried out, the standard provides a characteristic value template and a regular expression which are filled in according to the required standard when being input;

D) the characteristic value of the basic measurement unit is the English letter characteristic value which is uniformly specified;

E) and filling the material symbol characteristic values according to a uniform and standardized writing method.

F) All the characteristic value filling needs to comply with all the regulations of 'material coding training materials'.

In this embodiment, the material coding standard of the material standard coding system framework is implemented by using a material management classification code system (HA0013) as a guide tree, a material classification code system (HA0003) as a material coding data main body, a characteristic definition system (HC0004) as a material characteristic category code, and a material characteristic value system (HC0011) as a database for standardizing material characteristic values. The material coding adopts the four basic codes as the whole material data base to establish a uniform material coding system. The material unified scientific coding system forms material codes by a material classification code system, characteristic code characteristic codes and a combined sub-character string (with an indefinite length) adopting characteristic values and separating characters. According to the material management classification code system and the material codes, the computer system forms specific material codes used by the computer system identification and information system according to the internal calculation rules.

(3) Material coding data entry module 3

The module mainly provides a first-level input of the materials to be purchased by an input member according to filling rules, and the input member firstly inquires a material classification code system in a material standard code system tree and automatically guides the material classification code system; and then completing the input work of the material data by adding a characteristic value system or other factory data copying two manual input modes, and in addition, modifying the returned material coded data and operating according to an approval log.

When a code group input member uses the material coding data input module 3 to carry out primary input, the steps executed by the material coding data input module 3 comprise:

201) acquiring a material classification code system selected by a code group input operator in a material standard code marking system tree;

202) guiding the materials to enter the material classification code system and the characteristic definition system;

203) acquiring a characteristic value system and a reference metering unit input by a code group input operator;

204) integrating the corresponding management code system, material code system, feature definition system, feature value system and reference measurement unit to form material code data.

(4) Material coding data auditing module 4

The module mainly provides a secondary audit for an auditor to the primary input data, and specifically provides a primary audit for the input data submitted by the auditor through the characteristic value adding system. When the code group auditor uses the material code data auditing module 4, the material code data auditing module 4 executes the steps of:

and obtaining a result of secondary audit of the goods and materials coded data by the code group auditor, if the result is not passed, feeding the audit result back to the goods and materials coded data entry module 3 for primary entry again, otherwise, outputting the goods and materials coded data.

(5) Material coding data approval module 5

The module mainly provides a maintenance center approver to carry out three-level approval on the checked material coded data, and specifically, the maintenance center approver carries out final approval on the material coded data submitted by the code group input person through adding a characteristic value system. When the maintenance center approver uses the material coded data approval module 5, the steps executed by the material coded data approval module 5 comprise:

and obtaining a result of the three-stage examination and approval of the material coded data by the examination and approval staff of the maintenance center, if the result is not passed, feeding back the examination and approval result to the material coded data entry module 3 for primary entry again, and otherwise, outputting the material coded data.

(6) Weight-removing module 6

The module comprises a duplication elimination module through a semantic algorithm and a duplication elimination module through big data, and is mainly used for carrying out overall process tracking duplication elimination on newly entered material coding data, and specifically comprises the following steps: automatically carrying out weight removal on the first-level input material coding data; automatically carrying out duplicate removal on the material coding data passing the secondary audit; automatically carrying out duplicate removal on the material coding data passing the three-level examination and approval; automatically removing the weight of the material coded data modified in the material coded data maintenance module 9; the material coding data recorded into the module 7 automatically are rearranged; and automatically copying the repeated data obtained by the duplicate removal.

The method mainly comprises the following steps:

301) the material coded data formed in the material coded data recording module 3 are subjected to duplication elimination, if the duplication is repeated, the material coded numbers are automatically copied, the application flow is stopped, and otherwise, the material coded data are sent to a material coded data auditing module 4;

302) the material coded data output by the material coded data auditing module 4 is rearranged, if the duplication is repeated, the material number is automatically copied, the application flow is stopped, and otherwise, the material coded data is sent to the material coded data approving module 5;

303) the material coded data output by the automatic input module 7 are rearranged, if the duplication is repeated, the material coded numbers are automatically copied, the application process is terminated, and otherwise, the material coded data are sent to the material coded data approval module 5;

304) the material coded data output by the material coded data approval module 5 are rearranged, if the duplication is repeated, the material coded numbers are automatically copied, the application process is terminated, and otherwise, the material coded data are sent to the code issuing module 8;

305) and (3) carrying out duplicate removal on the material coded data modified in the material coded data maintenance module 9, copying the duplicate data if the duplicate data is repeated, feeding a duplicate removal result back to the material coded data maintenance module 9 to obtain the modified material coded data again, and otherwise, synchronizing the material coded data to an application system for updating.

(7) Automatic recording module 7

The module mainly carries out digital twinning on productive equipment through a 3D scanning modeling technology, and analyzes a nameplate and a 3D twinborn body of the productive equipment by using an image recognition technology, so that the automatic recording of material coding data is realized.

(8) Code release module 8

The module is mainly used for generating globally unified nine-bit material coding numbers and distributing the nine-bit material coding numbers to application systems, such as ERP systems.

(9) Material coding data maintenance module 9

The module is mainly used for providing unscheduled maintenance for material coding data by an approver of a maintenance center, and specifically, firstly, the approver of the maintenance center performs definition maintenance according to a standard file and an analysis message automatically pushed by a system; then the system automatically carries out the re-ranking operation of removing new numbers and reserving old numbers; finally, the modified data is synchronized to the application system.

(10) Multi-dimensional reporting module 10

The module mainly carries out inquiry through different inquiry conditions and inquiry ranges and automatically generates a report according to multiple conditions, and specifically provides different inquiry conditions and report generation functions for different authorities.

(11) Intelligent information pushing module 11

The module is mainly used for carrying out intelligent analysis and pushing on the material coding data of the same classification and pushing the learning task for the material coding personnel with poor filling data quality, and specifically comprises the following steps:

firstly, intelligently submitting learning contents and time for a code group input member according to the error rate of submitted data, and returning the learning contents and the time to a member information authentication and authorization module;

secondly, intelligently submitting learning contents and time for an auditor of the code group according to the error rate of the audit, and returning the learning contents and the time to the employee information authentication and authorization module;

thirdly, providing characteristic value parameters for an approver of the maintenance center;

and fourthly, pushing information to other material coding personnel according to the configuration.

As shown in fig. 2, the present invention further provides a material code generating method of the above power material code generating system, including the following steps:

s1: acquiring whether the materials to be recorded are productive materials, if so, executing a step S2, otherwise, executing a step S4;

s2: the automatic input module 7 carries out digital twinning on the productive equipment through 3D scanning modeling, analyzes a nameplate and a 3D twinborn body of the productive equipment by using image recognition, and automatically inputs the material coding data;

s3: the duplication elimination module 6 is used for eliminating duplication of the material coding data which pass through the automatic input module 7, if the duplication is repeated, the material coding number is automatically copied, the application flow is terminated, and otherwise, the step S8 is executed;

s4: according to the material standard coding system tree, the material coding data entry module 3 acquires first-level entry data of material codes to form material coding data;

s5: the duplication elimination module 6 is used for eliminating duplication of coded data formed in the material coded data entry module 3, if the coded data are repeated, the material coded number is automatically copied, the application flow is terminated, and otherwise, the step S6 is executed;

s6: the material coded data auditing module 4 acquires the material coded data which passes the weight removal in the step S5, acquires the secondary auditing result of the material coded data, and if the result is not passed, returns to execute the step S4, otherwise executes the step S7;

s7: the duplication elimination module 6 is used for eliminating duplication of the coded data passing through the material coded data auditing module 4, if the coded data are duplicated, the material coded number is automatically copied, the application flow is terminated, and otherwise, the step S8 is executed;

s8: the material coded data approval module 5 acquires the material coded data which passes the weight removal in the step S3 or the step S7, acquires the three-level approval result of the material coded data, and if the result does not pass, returns to execute the step S4, otherwise executes the step S9;

s9: the duplication elimination module 6 is used for eliminating duplication of the coded data passing through the material coded data approval module 5, if the coded data are duplicated, the material coded numbers are automatically copied, the application process is terminated, and otherwise, the step S10 is executed;

s10: the code generation issuing module 8 acquires the material coding data subjected to the weight removal in the step S9, generates a global uniform coding number, and issues the global uniform coding number to the application system;

s11: and the material standard coding system module 2 updates and maintains the material standard coding system tree according to the change or addition request.

While the invention has been described with reference to specific embodiments, the invention is not limited thereto, and those skilled in the art can easily conceive of various equivalent modifications or substitutions within the technical scope of the invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. A system for generating a power supply code, comprising:

information authentication authorization module (1): the system is used for performing information authentication, online training, classification and authority authorization on material coding personnel according to the configuration of a preset module;

material standard coding system module (2): storing a material standard coding system tree which is used as a standard for material code generation;

material coding data entry module (3): the system is used for carrying out primary input on the material coding data;

material coding data auditing module (4): the system is used for performing secondary audit on the primary input coded data;

material coding data approval module (5): the system is used for carrying out three-level examination and approval on the coded data passing the second-level examination and approval;

automatic entry module (7): the system is used for realizing automatic input of the data of the production goods and materials;

a weight removal module (6): the system is used for carrying out repetition elimination and verification uniqueness on the coded data in the material coded data entry module (3), the material coded data auditing module (4), the material coded data approving module (5) and the automatic entry module (7);

a code generation release module (8): the global unified coding is generated for the coded data and is distributed to the application system.

2. The system for generating the electric power material code according to claim 1, wherein the information authentication of the material coding personnel comprises authentication of personal information, learning time and exercise accuracy, and the classification of the material coding personnel comprises classification of the material coding personnel into a code group entry worker, a code group examination and verification worker, a maintenance center examination and approval worker and a mark code group expert;

the authority of the code group entry member comprises: the use authority of the material coding data entry module (3);

the authority of the code group auditor comprises: the use authority of the material coding data entry module (3) and the material coding data auditing module (4);

the authority of the maintenance center approver comprises the following steps: the use authority of the material coded data entry module (3) and the material coded data approval module (5) and the maintenance authority of the material standard coding system module (2);

the authority of the code group expert comprises: and the material standard codes the use authority of the system module (2).

3. The system for generating electric power material codes according to claim 2, wherein the material standard code system module (2) can change or add a material standard code system tree, and when a change or addition request is received, the material standard code system module (2) performs the following steps:

101) acquiring an application file for material standard code change or addition submitted by a code group input member;

102) obtaining a pre-examination result of an auditor of a code group for the application file;

103) obtaining the auditing result of the maintenance center approver for the application file;

104) obtaining the approval result of the code group expert on the audit result of the application file;

105) and updating the changed or added material standard codes to a material standard coding system according to the approval result.

4. The generation system of the electric power material code according to claim 1, characterized in that the automatic entry module (7) carries out digital twin on productive equipment through 3D scanning modeling, and analyzes a nameplate and the 3D twin of the productive equipment by using image recognition, so as to realize automatic entry of the material code data.

5. The system according to claim 2, wherein the standard material coding system tree comprises a management code system, a material code system, a feature definition system, a reference measurement unit, and a feature value system;

when the code group entry member uses the material coding data entry module (3), the steps executed by the material coding data entry module (3) comprise:

201) acquiring a material classification code system selected by a code group input member in a material standard code system tree;

202) guiding the materials to enter the material classification code system and the characteristic definition system;

203) acquiring a characteristic value system and a reference measurement unit input by a code group input operator;

204) and integrating the corresponding management classification code system, the material classification code system, the characteristic definition system, the characteristic value system and the reference metering unit to form material coding data.

6. The system for generating the electric power material code according to claim 5, wherein when the code group auditor uses the material code data auditing module (4), the material code data auditing module (4) executes the steps of:

and obtaining a result of secondary audit of the goods and materials coded data by the code group auditor, if the result is not passed, feeding the audit result back to the goods and materials coded data entry module (3) for primary entry again, otherwise, outputting the goods and materials coded data.

7. The system for generating electric power material codes according to claim 6, wherein when the maintenance center approver uses the material code data approval module (5), the material code data approval module (5) performs the following steps:

and obtaining a result of the three-level approval of the material coded data by the maintenance center approver, if the result is not passed, feeding back the approval result to the material coded data entry module (3) for primary entry again, and otherwise, outputting the material coded data.

8. The system for generating an electric power material code according to claim 7, wherein the weight-eliminating module (6) performs the steps of:

301) carrying out duplicate removal on the material coded data formed in the material coded data entry module (3), if the duplicate removal is repeated, automatically copying the material coded number, and terminating the application process, otherwise, sending the material coded data to a material coded data auditing module (4);

302) the goods and materials coded data output by the goods and materials coded data auditing module (4) are rearranged, if the data are repeated, the goods and materials coded numbers are automatically copied, the application flow is stopped, and otherwise, the goods and materials coded data are sent to the goods and materials coded data approving module (5);

303) the material coded data output by the dynamic recording module (7) are rearranged, if the duplication is repeated, the material coded number is automatically copied, the application process is terminated, and otherwise, the material coded data are sent to the material coded data approval module (5);

304) and (3) carrying out duplicate removal on the material coded data output by the material coded data approval module (5), if the duplication is repeated, automatically copying the material coded number, and terminating the application process, otherwise, sending the material coded data to the code issuing module (8).

9. The system for generating electric power material codes according to claim 1, further comprising:

material coding data maintenance module (9): the system is used for providing maintenance center approvers to maintain the material standard coding system module (2) and the material coding data;

multidimensional reporting module (10): the system is used for inquiring the coded data through different inquiry conditions and inquiry ranges and automatically generating a report;

information intelligence propelling movement module (11): the system is used for pushing and optimizing material coding system tree contents, material coding data matched with semantic algorithms and agency tasks according to different authorities, and pushing learning tasks to coding personnel.

10. A material code generating method of the power material code generating system according to any one of claims 1 to 9, comprising the steps of:

s1: acquiring whether the materials to be recorded are productive materials, if so, executing a step S2, otherwise, executing a step S4;

s2: the automatic input module (7) carries out digital twinning on the productive equipment through 3D scanning modeling, analyzes a nameplate and a 3D twinborn body of the productive equipment by using image recognition, and automatically inputs the material coding data;

s3: the duplication elimination module (6) is used for eliminating duplication of the material coding data which pass through the automatic input module (7), if the duplication is repeated, the material coding number is automatically copied, the application process is terminated, and otherwise, the step S8 is executed;

s4: according to the material standard coding system tree, a material coding data entry module (3) acquires primary entry data of material codes to form material coding data;

s5: the duplication elimination module (6) eliminates duplication of coded data formed in the material coded data entry module (3), if the coded data are repeated, the material coded number is automatically copied, the application flow is terminated, and otherwise, the step S6 is executed;

s6: the material coded data auditing module (4) acquires the material coded data which passes the weight removal in the step S5, acquires the secondary auditing result of the material coded data, if the result is not passed, the step S4 is returned to be executed, otherwise, the step S7 is executed;

s7: the duplication elimination module (6) is used for eliminating duplication of the coded data passing through the material coded data auditing module (4), if the duplication is repeated, the material coded number is automatically copied, the application flow is terminated, and otherwise, the step S8 is executed;

s8: the material coded data approval module (5) acquires the material coded data which passes the weight removal in the step S3 or the step S7, acquires the three-level approval result of the material coded data, and if the result is that the material coded data does not pass, returns to execute the step S4, otherwise, executes the step S9;

s9: the duplication elimination module (6) is used for eliminating duplication of the coded data passing through the material coded data approval module (5), if the coded data are repeated, the material coded numbers are automatically copied, the application process is terminated, and otherwise, the step S10 is executed;

s10: the code generation issuing module (8) acquires the goods and materials coded data subjected to the weight removal in the step S9, generates a global uniform coded number and issues the global uniform coded number to an application system;

s11: and the material standard coding system module (2) updates and maintains the material standard coding system tree according to the change or addition request.

Images