CN112926872B - System management method of ISO system - Google Patents
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- G06F21/00—Security arrangements for protecting computers, components thereof, programs or data against unauthorised activity
- G06F21/30—Authentication, i.e. establishing the identity or authorisation of security principals
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Abstract
The invention discloses a system management method of an ISO system, which comprises the steps of sorting out control programs of all ISO management systems, acquiring all parameters in control files in the control programs to set control ranges so as to form a control management system containing various ISO management systems, wherein the control management system comprises common nodes of all the ISO management systems, namely the same section, and parallel node setting is carried out on the same part of control parameters in different modes; and then, the complete input data is detected and checked by the first ISO system, corresponding data records are filled in the factory on time, and then whether the corresponding automatic detection and monitoring of various ISO systems meet the standards is judged, so that the whole process monitoring of the same system is realized for different ISO systems, the working efficiency and the accuracy are improved, and meanwhile, the operation is convenient.
Description
Technical Field
The invention relates to the technical field of data management, in particular to a system management method of an ISO system.
Background
Quality system authentication is also known as "quality system registration". And a fair third-party system certification authority evaluates the quality system of the enterprise according to the formally issued quality system standard, issues a system certification certificate and issues a registration directory, and proves all activities of the quality system of the enterprise conforming to a certain quality system standard to the public. ISO quality system authentication, i.e. ISO9001:2000 quality system authentication, then upgrade to ISO9001:2008 quality system authentication is a necessary system authentication basis for each enterprise, and for better development of enterprises, basically each enterprise can perform iso quality system authentication, has client requirements, and has own requirements for doing.
However, in the existing iso quality system authentication process, the data range that may need to be authenticated for different authentication units is different, and the authentication requirements are also different, so that each final authentication program needs an authentication program corresponding to one authentication requirement, so that the data cannot be unified, and in the case of an enterprise, when one authentication mechanism authenticates a product without knowing the authentication unit requirements, the authentication data needs to be re-verified, and finally, the authentication efficiency is low, and many repeated works are performed, so that improvement is needed.
Disclosure of Invention
The invention aims to provide a system management method of an ISO system, which aims to solve the problems of low working efficiency and incapability of unified management of data in the background technology.
In order to achieve the above purpose, the present invention provides the following technical solutions: a system management method of an ISO system specifically comprises the following steps:
S1, firstly, sorting out control programs of all ISO management systems, and acquiring parameter setting control ranges in all control files;
S2, calculating nodes of parameter setting ranges obtained in all ISO management systems, judging whether the parameter setting ranges of the same part exist in all the obtained ISO management systems, if so, taking the parameter setting ranges of the same part as common nodes of the ISO management systems containing the same part, setting parallel nodes with different control parameters of the same part, and realizing parallel processing of detection of different systems by setting different management parameters at the same nodes in the same ISO management system; the repeated check of the parameter data of each detection system is avoided, all ISO management systems are classified and recorded and stored in the mode, and if not, all ISO management systems are recorded and stored directly according to the set range of each parameter;
S3, then, performing complete input on all detection data in the first ISO system detection examination;
s4, filling corresponding data records in the corresponding detection data according to the requirements of the step S3 in the factory;
S5, when the detection data filled by the worker are obtained, the system automatically analyzes whether the obtained detection data are in the requirement range recorded in the step S2; if yes, directly outputting all ISO management system authentication results meeting the corresponding requirements, and if not, directly outputting 'not meeting any ISO management system requirements'.
Further, for convenience of operation, in step S5, the specific steps of automatically analyzing whether the acquired detection data is within the required range entered in step S2 are as follows:
S5-1, firstly, sequentially acquiring real-time data requirements of corresponding detection data;
S5-2, searching whether an ISO management system corresponding to the common node with the same part exists according to the detected data object, and if so, entering a step S5-3; if not, entering a step S5-4;
S5-2, directly extracting an ISO management system corresponding to the same public node;
S5-4, directly acquiring a unique ISO management system containing the real-time data.
Further, in step S4, each factory needs to set its own control account number, and automatically save all data.
Furthermore, in step S5, when the system authentication is performed on the factory, the requirement of acquiring the whole-course monitoring of the data can be achieved by remote real-time authentication and only providing the account number and the password of the system.
Further, the specific steps of the step S2 are as follows: traversing the parameter setting control ranges in all the acquired control files, judging whether the same detection data types have the same section, if so, taking the same section as a public node, taking different sections as temporary nodes, and if not, directly recording and storing all the ISO management systems according to the parameter setting ranges.
Further, the number of times the parameter setting control range is traversed in all the acquired control files is one or more.
Further, in step S4, when each factory inputs an account, the input times corresponding to the same account cannot exceed the set times at the same time, and if the input times exceed the set times, the system delay processing is directly performed, and the encryption processing is performed.
Further, the set number of times is not more than 5 times.
Firstly, sorting out control programs of all ISO management systems, and setting control ranges for all parameters in control files to form a control management system containing various ISO management systems, wherein the control management system comprises common nodes of all the ISO management systems, namely the same interval, and parallel node setting is carried out on the same part of control parameters in different ways; and then, the complete input data is detected and checked by the first ISO system, corresponding data records are filled in the factories corresponding to the first ISO system on time, and then whether the corresponding automatic detection and monitoring of various ISO systems meet the standards is judged, so that the whole process monitoring of the same system is realized for different ISO systems, the working efficiency and the accuracy are improved, the operation is convenient, in addition, each factory is provided with a control account number, all the data are automatically stored, the management is convenient, in addition, the remote real-time authentication is realized during the system authentication, the account number and the password of the system are provided, the whole process monitoring of the data is realized, and the real system control is realized.
Detailed Description
Example 1:
the embodiment provides a system management method of an ISO system, which specifically comprises the following steps:
S1, firstly, sorting out control programs of all ISO management systems, and acquiring parameter setting control ranges in all control files;
S2, calculating nodes of parameter setting ranges obtained in all ISO management systems, judging whether the parameter setting ranges of the same part exist in all the obtained ISO management systems, if so, taking the parameter setting ranges of the same part as common nodes of the ISO management systems containing the same part, setting parallel nodes with different control parameters of the same part, and realizing parallel processing of detection of different systems by setting different management parameters at the same nodes in the same ISO management system; the repeated check of the parameter data of each detection system is avoided, all ISO management systems are classified and recorded and stored in the mode, and if not, all ISO management systems are recorded and stored directly according to the set range of each parameter;
S3, then, performing complete input on all detection data in the first ISO system detection examination;
s4, filling corresponding data records in the corresponding detection data according to the requirements of the step S3 in the factory;
S5, when the detection data filled by the worker are obtained, the system automatically analyzes whether the obtained detection data are in the requirement range recorded in the step S2; if yes, directly outputting all ISO management system authentication results meeting the corresponding requirements, and if not, directly outputting 'not meeting any ISO management system requirements'.
Further, for convenience of operation, in step S5, the specific steps of automatically analyzing whether the acquired detection data is within the required range entered in step S2 are as follows:
S5-1, firstly, sequentially acquiring real-time data requirements of corresponding detection data;
S5-2, searching whether an ISO management system corresponding to the common node with the same part exists according to the detected data object, and if so, entering a step S5-3; if not, entering a step S5-4;
S5-2, directly extracting an ISO management system corresponding to the same public node;
S5-4, directly acquiring a unique ISO management system containing the real-time data.
The nodes described in this embodiment are control key parameters of the flow in each ISO management system.
In step S4, each factory needs to set its own control account number, and automatically save all data.
Furthermore, in step S5, when the system authentication is performed on the factory, the requirement of acquiring the whole-course monitoring of the data can be achieved by remote real-time authentication and only providing the account number and the password of the system.
Further, the specific steps of the step S2 are as follows: traversing the parameter setting control ranges in all the acquired control files, judging whether the same detection data types have the same section, if so, taking the same section as a public node, taking different sections as temporary nodes, and if not, directly recording and storing all the ISO management systems according to the parameter setting ranges.
Further, the number of times the parameter setting control range is traversed in all the acquired control files is one or more.
Further, in step S4, when each factory inputs an account, the input times corresponding to the same account cannot exceed the set times at the same time, and if the input times exceed the set times, the system delay processing is directly performed, and the encryption processing is performed.
Further, the set number of times is not more than 5 times.
The real-time operation is as follows: if the temperature requirement of the ISO9001 in the ISO management system is 22-25 degrees for a certain product and the temperature requirement of the other ISO9002 for the same product is 23-28 degrees, the temperature of the product is found to be reflected in both ISO management systems through the invention, so that the temperature requirements of each ISO management system are analyzed, the temperature range of 23-25 degrees of a common node is finally obtained, the rest different nodes are treated as parallel nodes, the real-time temperature of the later product is 24, namely, the requirements of the two management systems are met, and the authentication results of the ISO9001 and the ISO9002 are finally displayed.
The technical effects of this embodiment are therefore: firstly, setting control ranges by sorting out control programs of all ISO management systems and obtaining all parameters in control files in the control programs to form a control management system containing various ISO management systems, wherein the control management system comprises common nodes of all ISO management systems, namely the same section, and parallel node setting is carried out on the same part of control parameters; and then, the complete input data is detected and checked by the first ISO system, corresponding data records are filled in the factories corresponding to the first ISO system on time, and then whether the corresponding automatic detection and monitoring of various ISO systems meet the standards is judged, so that the whole process monitoring of the same system is realized for different ISO systems, the working efficiency and the accuracy are improved, the operation is convenient, in addition, each factory is provided with a control account number, all the data are automatically stored, the management is convenient, in addition, the remote real-time authentication is realized during the system authentication, the account number and the password of the system are provided, the whole process monitoring of the data is realized, and the real system control is realized.
Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (6)
1. The system management method of the ISO system is characterized by comprising the following steps of:
S1, firstly, sorting out control programs of all ISO management systems, and acquiring parameter setting control ranges in all control files;
S2, calculating the nodes of the parameter setting ranges obtained in all ISO management systems, judging whether the parameter setting ranges of the same part exist in all ISO management systems, if so, taking the parameter setting ranges of the same part as a common node of the ISO management systems containing the same part, and setting parallel nodes with different control parameters of the same part, wherein the method specifically comprises the following steps: traversing the parameter setting control ranges in all the acquired control files, judging whether the same detection data types have the same section, if so, taking the same section as a public node, taking different sections as temporary nodes, and if not, directly recording and storing all the ISO management systems according to the parameter setting ranges;
S3, then, performing complete input on all detection data in the first ISO system detection examination;
s4, filling corresponding data records in the corresponding detection data according to the requirements of the step S3 in the factory;
s5, when the detection data filled by the worker are obtained, real-time data requirements corresponding to the detection data are sequentially obtained, whether an ISO management system corresponding to the public node with the same part exists or not is searched according to the detection data object, and if yes, step S6 is carried out; if not, the step S7 is carried out;
s6, directly extracting the ISO management system corresponding to the same public node;
s7, directly acquiring a unique ISO management system containing the real-time data.
2. The system management method according to claim 1, wherein in step S4, each factory needs to set its own control account number and automatically save all data.
3. The system management method of an ISO system according to claim 1, wherein in step S5, when the system authentication is performed on the factory, the requirement of acquiring the whole-course monitoring of the data can be achieved by remote real-time authentication, and only providing the account number and the password of the system.
4. The system management method according to claim 1, wherein the number of times of traversing the parameter setting control range in all the acquired control files is one or more.
5. The system management method according to claim 1, wherein in step S4, when each factory inputs an account, the number of inputs corresponding to the same account cannot exceed a set number of times at the same time, and if the number of inputs exceeds the set number of times, the system delay processing is directly performed and the encryption processing is performed.
6. The system management method according to claim 5, wherein the set number is not more than 5.
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