CN113435693B - Glass product production management system - Google Patents

Glass product production management system Download PDF

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CN113435693B
CN113435693B CN202110548648.2A CN202110548648A CN113435693B CN 113435693 B CN113435693 B CN 113435693B CN 202110548648 A CN202110548648 A CN 202110548648A CN 113435693 B CN113435693 B CN 113435693B
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system server
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CN113435693A (en
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张明权
李白华
庄清勇
翁荣华
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Putian Rijing Glass Products Co ltd
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    • Y02P90/30Computing systems specially adapted for manufacturing

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Abstract

The application relates to the field of glassware production management, especially relates to a glassware production management system, including system server and all connect in system server's data acquisition module, look over the module and operate the module in advance. The product production information in the glass product production process is collected through the data collection module and stored in the system server, so that the problem that paper file records are easy to lose and damage is effectively solved, correlation statistics is conveniently carried out according to a first preset condition to form product production data, and traceability query is conveniently carried out through the checking module according to requirements; by utilizing data such as time interval between working procedures of different process procedures, the production time of products of different process procedures can be more accurately acquired, and the accuracy of query and tracing can be improved.

Description

Glassware production management system
Technical Field
The application relates to the field of glassware production management, in particular to a glassware production management system.
Background
The production of the glass product mainly comprises the procedures of batching, melting, product working and annealing, and in order to count the production data of each procedure, when the glass product passes through each procedure, the staff needs to record the corresponding production data, and the production data comprises the product specification type, the yield, the production time, the production temperature, the operators and the like. Such as the temperature for stirring and mixing materials in the batching process, the proportion corresponding to different product specification types, the kiln temperature of the melting process, the production time of the bottle-making process, the annealing furnace temperature of the annealing process and the like.
At present, most production data are recorded by field workers in a paper file, and then the paper file is integrally filed.
Aiming at the related technologies, the inventor thinks that the paper file records are easy to lose, difficult to store and inconvenient to trace and inquire.
Disclosure of Invention
In order to improve statistics, inquiry and trace back of production data, the application provides a glassware production management system.
The application provides a glassware production management system adopts following technical scheme:
a glassware production management system, comprising:
the system server is used for storing and processing data;
the data acquisition module is connected with the system server and is used for acquiring product production information and outputting the product production information to the system server; the product production information comprises associated product class information and product production time;
the process control module is connected with the system server and used for outputting actual process data and the operation time of the process control module to the system server; and
the checking module is connected with the system server and is used for outputting a checking instruction; the viewing instruction at least comprises information of a production process or a product type;
the system server is prestored with at least one product production plan information and at least one production flow, and the product production plan information is associated with one production flow; the product production plan information comprises the product category information; the production flow at least comprises one production procedure; each production procedure is associated with at least one process control module;
when the system server receives product production information, the product type information is associated with product production plan information, and the production process and actual process data are associated with the production process through the production flow, so that a data list comprising one or more of the product type information, the production process and the actual process data is formed;
and when the system server receives the viewing instruction, calling the corresponding data list according to the viewing instruction, and displaying the data list as a viewing result.
By adopting the technical scheme, the product production information in the glass product production process can be collected through the data acquisition module and stored in the system server, the problem that the paper file records are lost and damaged is effectively solved, correlation statistics is conveniently carried out according to a first preset condition to form product production data, and the tracing query is conveniently carried out through the checking module according to the requirement.
And product production information, production flow and a process control module are associated, so that required tracing information can be acquired according to product type information, production procedures, a production control module and the like during actual tracing.
Optionally, the method further includes:
the system comprises a pre-operation module, a system server and a communication module, wherein the pre-operation module is connected to the system server and is used for sending preset information to the system server according to a first preset condition; the preset information comprises product type information, production procedures, production flows and production process parameters; different production process parameters are associated with different production procedures;
the pre-operation module is also used for establishing product production plan information according to the product type information, establishing a production flow by orderly combining at least one production process, associating the process control module with the production process to form process plan data, associating the product production plan information with the production flow to form production plan data, and transmitting the product production plan information, the production flow, the process plan data and the production plan data to the system server.
By adopting the technical scheme, the production processes and production process parameters of different glass products or different orders and batches of the same glass product may have differences, and data such as different production processes, production process parameters and the like can be set in advance through the pre-operation module; the production process parameters and production flow data set by the pre-operation module can be stored in the system server and can be used as first preset conditions for associating different production processes.
Optionally, the system server pre-stores production process parameters, each production process is associated with an independent production process parameter, and the production process parameters include production duration of a corresponding production process; the production process is a packaging process or a process before the packaging process; the process procedure is associated with at least one process control module; the production flow at least comprises a packaging procedure;
the data acquisition module is at least used for acquiring product production information of the packaging process;
the system server judges whether the process procedure in the production flow of the same product production plan information has corresponding product production information or not according to the received product production information of the packaging procedure; and if not, supplementing and acquiring product production information corresponding to the process procedure in the production flow of the same product production plan information.
By adopting the technical scheme, the product form is only initially set after the product production process in the glass product production process, the production time of the glass product in different process procedures is difficult to be correspondingly recorded, and the product production information including the production time of the packaging procedure is generally formed when the glass product is packaged in the packaging procedure, so that the production time of each procedure (process procedure or packaging procedure) when the glass product is produced can be presumed and judged through the preset interval duration between the procedures.
In different time, the production lines for producing the same glass product may change, and the corresponding inter-process interval durations may be different, so that when the glass product passes through the packaging process, the product prediction production time of different process processes is presumed according to the current preset inter-process interval duration, and the accuracy of the glass product production data can be improved.
Optionally, the process procedure is a preparation procedure, an annealing procedure or a spraying procedure; the production flow also comprises the sequence of each production procedure;
the pre-operation module is also used for presetting inter-process interval duration; the inter-process interval duration is the transmission demand time between adjacent production processes;
the supplementing and acquiring the product production information corresponding to the process in the production flow of the same product production plan information comprises the following steps:
acquiring production flow and product type information according to the product production plan information;
acquiring a process procedure according to the production flow;
calculating the product predicted production time of the corresponding process according to the production time and the inter-process interval time;
judging whether the product predicted production time is the product production time of the corresponding process procedure or not according to a second preset condition;
and if so, combining the product type information with the product production time to form product production information of the corresponding process.
By adopting the technical scheme, when the glass product passes through the packaging process, whether the product production information of each production process in the production flow of the glass product is complete or not is judged and supplemented, and if the product production information is incomplete, the supplement is acquired, so that the production data of the glass product is complete, and subsequent checking and tracing are facilitated.
Optionally, the determining, according to the second preset condition, whether the product predicted production time is the product production time of the corresponding process step includes:
acquiring the actual equipment running time of the corresponding process control module through the process procedure;
judging whether a process control module operates in the product predicted production time of the process procedure;
if the operation is carried out, the product production time of the process procedure is the product predicted production time;
if not, calculating according to the actual running time of the equipment, the production time and the interval time between the working procedures to obtain the adjusted production time; the production time of the product in the process procedure is adjusted.
By adopting the technical scheme, in the process of producing the same batch of glass products, the process control module may have the condition of stopping running such as failure or shutdown maintenance, and the like, and under the condition, the process procedure corresponding to the process control module should not exist in the product predicted production time corresponding to the glass products. Therefore, when the product predicted production time is judged, the calculation and judgment are carried out in combination with the running time of the process control module, so that the accuracy of the product production information stored in the system server is improved, and the effectiveness of the tracing query is improved.
Optionally, before the determining whether the process control module operates within the product predicted production time of the process step, the method further includes:
comparing actual process data corresponding to the actual running time of the equipment with production process parameters, and judging whether the process control module runs normally or not;
if the operation is normal, judging whether a process control module operates in the product predicted production time of the process procedure;
and if the product is not normally operated, marking the product as an abnormal product.
By adopting the technical scheme, similarly, abnormity may occur in the operation process of the process control module, so that the difference exists between the actual process data and the prestored production process parameters, namely, the condition that the generated glass product is a defective product exists, therefore, the glass product generated under the abnormal condition is set as the abnormal product, the direct entering of the defective glass product into the packaging process can be reduced, and the yield of the glass product is improved.
Optionally, if the device normally operates within the actual operation time, the product production information further includes actual process data within the product production time of the process procedure.
By adopting the technical scheme, the actual process data in the product production time of the corresponding process procedure can be judged as the process data in the product production process and stored in the system server as the product production information, so that the product production information comprising the bottle-making production time and the process data can be conveniently counted, inquired and traced, and the inquiry and tracing convenience is improved.
Optionally, the pre-operation module is further configured to set an exception handling process; the exception handling flow comprises a full inspection process;
the system server is also used for associating the abnormal product with the abnormal processing flow.
By adopting the technical scheme, the abnormal products marked as abnormal can be associated to the abnormal processing flow through the pre-operation module, and the inspection is carried out through the full inspection process of the abnormal processing flow, so that the mixing of the defective products into the qualified products can be reduced, and the products enter the packaging process and enter the market.
Optionally, the system further comprises a display module connected with the system server; the display module is used for displaying product production plan information or actual process data.
By adopting the technical scheme, the display module can be used for facilitating personnel to quickly know the production plan of the product, reducing the number of paper files to be browsed, and improving the viewing convenience and reminding; and people can know the actual process data of the process control module in time conveniently.
The display module may be a field billboard. The field billboard is arranged on the production field, and the product production plan information is limited by the field billboard, so that field workers can be reminded to know the information such as the types and production plans of glass products produced in various process procedures and packaging procedures in time, and the difference between the actual product production and the production plan is reduced.
Optionally, the system further comprises a standby server connected with the system server, the data acquisition module and the viewing module respectively; the standby server is controlled by the system server and is used for backing up product production data stored by the system server or replacing the system server to receive product production information when the system server fails.
By adopting the technical scheme, the backup server can assist product production data and the like stored by the system server to be backed up, and the backup server can also replace the system server to connect the data acquisition module, the checking module and the like, so that the glass product production management system can be stably executed.
In summary, the present application includes at least one of the following beneficial technical effects:
1. the product production information in the glass product production process is collected through the data collection module and stored in the system server, so that the problem that paper file records are easy to lose and damage is effectively solved, correlation statistics is conveniently carried out according to a first preset condition to form product production data, and traceability query is conveniently carried out through the checking module according to requirements;
2. by utilizing data such as time interval between working procedures of different process procedures, the production time of products of different process procedures can be more accurately acquired, and the accuracy of query and tracing can be improved.
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Fig. 1 is a schematic block diagram of a production management system according to embodiment 1 of the present application;
fig. 2 is a schematic block diagram of a production management system according to embodiment 2 of the present application.
Description of reference numerals: 1. a system server; 2. a data acquisition module; 3. a viewing module; 4. a pre-operation module; 5. a process control module; 6. a display module; 7. and a standby server.
Detailed Description
The present application is described in further detail below with reference to figures 1-2.
The production process of glass products such as glass bottles, glass plates or glass artware mainly comprises a material preparation process, a melting process, a product process, an annealing process, a detection process and a packaging process; wherein the batching process, the melting process and the product process do not have independent glass products, and the annealing process, the full inspection process and the packaging process have independent glass products. Therefore, in the production management process of the glass products, the batching process, the melting process and the product process generally only record production process parameters (such as time, temperature, pressure and the like), and the annealing process, the full inspection process and the packaging process may record production data such as the production time of the glass products in the preset batch quantity, the actually circulated production stations and the like in the form of production batch numbers and the like. At present, the production data are mostly recorded in a paper file manually, when the production data need to be inquired and traced, a large amount of data need to be read, and the relevance among various data is more, so that the statistical analysis is inconvenient.
In the actual production process, glass products of the same material and different specifications can be produced in the same production line, production plans are made in a production work order mode mostly in a mode of producing the glass products in different time, and the production plans at least comprise production plan information such as product types, product process parameters, product production flows and the like.
Example 1
The embodiment of the application discloses glassware production management system.
Referring to fig. 1, the glassware production management system includes a system server 1, and a data acquisition module 2, a viewing module 3, a pre-operation module 4, a process control module 5 and a display module 6 which are all connected to the system server 1. The process control module 5 is associated with a process sequence.
The system server 1 has a storage and control processing function, and is used for storing and processing data.
The data acquisition module 2 is used for acquiring product production information and outputting the product production information to the system server 1; the article production information includes article production time.
The process control module 5 is used for outputting actual process data and the operation time of the process control module 5 to the system server 1.
The viewing module 3 is used for outputting a viewing instruction to the system server 1; the viewing instruction at least comprises information of a production process or a product type.
The pre-operation module 4 is configured to perform setting and maintenance on preset information in the system server 1 that needs to be stored in advance, and send the preset information to the system server 1 according to a first preset condition. The first preset condition may be that the system server 1 cannot retrieve new product production plan information, new product category information, a new production flow or a new production process, or the like.
In practical use, the pre-operation module 4 may be a keyboard, a mouse or a scanning gun with a recording function. Specifically, the preset information comprises product type information, production procedures, production flows and production process parameters; different production process parameters are associated with different production processes.
The pre-operation module 4 is further configured to establish product production plan information according to the product category information, establish a production process by sequentially combining at least one production process, associate the process control module 5 with the production process to form process plan data, associate the product production plan information with the production process to form production plan data, and transmit the product production plan information, the production process, the process plan data, and the production plan data to the system server 1.
The glass products are required to be put in storage or sold after being prepared, so the production flow at least comprises a packaging procedure; the production process parameters include the production duration of the packaging process. Moreover, when the glass products in stock are shipped to different customers or transported in different manners, the packaging manner may need to be changed, and the production process is only a packaging process.
In the actual production process, the production data of the corresponding glass product can be transferred or associated to the production data list corresponding to the new packaging process only when the package needs to be replaced.
In the production process of normal glass products, the production flow at least comprises one or more of a preparation process, an annealing process and a spraying process, a packaging process and the sequence of each process. Wherein the preparation process comprises the steps of material preparation, smelting and product preparation.
The production process parameters also include the production duration of each process step. The inter-process interval duration is the transmission time between adjacent process processes in the production process and between the packaging process and the adjacent process processes.
The exception handling flow can also comprise a full inspection process; the system server 1 is also used for associating the abnormal product with an abnormal processing flow.
In the production process, the glass products generally do not have independent marks or labels, so that the specific product production information of each glass product is difficult to record in a one-to-one correspondence mode, and the product production information can be associated with data stored in the system server 1 through the labels and the label IDs formed in the packaging process and used for backtrack query when in need. Therefore, the data acquisition module 2 is at least arranged in the packaging process and can directly acquire the product production information of the packaging process. The product production information of the process procedure can be obtained by presuming the time interval between the procedures as the transmission required time, process parameters and the like between the adjacent process procedures, the packaging procedure and the adjacent process procedures in the production flow, and is recorded as the production time and the process data of the process procedure corresponding to the glass product.
Referring to fig. 1, the data acquisition module 2 is further configured to acquire product production plan information; the display module 6 is used for displaying the product production plan information. The display module 6 is a site signboard. Through display module 6, can be convenient for personnel to know the goods production plan fast, reduce to browse paper file, improve and look over convenience and warning.
Referring to fig. 1, the viewing module 3 is configured to output a viewing instruction; the viewing instruction at least comprises information of a production process or a product type. When the system server 1 receives the viewing instruction, the corresponding data list is called according to the viewing instruction, and the data list is displayed as a viewing result.
The viewing instructions may be one or more of product category information, equipment numbers corresponding to the process control modules 5, production time or process sequence, etc.
In the actual use process, if the display module 6 is a field billboard, personnel can view the actual process data of the corresponding process control module 5 through the field billboard and also view the current or planned product production plan information.
If the display module 6 is a mobile device, such as a mobile phone, installed with an application program connected to the system server 1. A corresponding display module 6 may also be associated with the viewing module 3, through which the query and display is effected. Therefore, personnel can inquire and display the conditions of specific time and specific production procedures in a targeted manner through the mobile equipment remotely, and can also perform statistical analysis on the production data of a certain time period or a certain production procedure, so that the production management efficiency is improved.
The system server 1 is configured to receive product production information acquired by the data acquisition module 2, various parameters or data (such as transmission demand time and/or process parameters between adjacent process steps, between a packaging process and an adjacent process step, and the like) preset by the pre-operation module 4, actual process data when the process control module 5 operates, and the like. Associating product production information of different procedures according to a first preset condition, and counting and storing all the product production information to form a product production data table;
the product production information received by the system server 1 and the connection control information of the system server 1, the data acquisition module 2, the viewing module 3, the pre-operation module 4 and the process control module 5; the control processing unit is used for carrying out statistics, analysis or judgment on the received product production information, process parameters and the like to form different data results.
In the embodiment of the present application, the system server 1 is configured to complete:
receiving and storing production flow and production process parameters.
Specifically, preset information such as a production flow and preset production process parameters is set through the pre-operation module 4 according to requirements, and the preset information is transmitted to the system server 1, so that the system server 1 can store the preset information conveniently.
And calculating the product predicted production time of different process steps according to the production time and the inter-process interval time.
Specifically, in the actual production process, the glass product may have a product label for tracing the finished product or the information after shipment in the packaging process, and the glass product is generally produced in a flow line, so that the process interval between the process step before the packaging process and the production time of each production process can be generally estimated. However, different production lines may have variations in production duration and process interval duration at different times due to process improvement or process adjustment, so that when a glass product passes through a packaging process, it is necessary to calculate and estimate product predicted production time of each process step that the glass product passes through in time according to data such as the production duration and the process interval duration in preset information, so as to improve accuracy of product production information stored in the system server 1.
In the production process of the glass product, different devices in the production line may have shutdown conditions such as faults, routine maintenance and the like, in this case, the devices are in a pause state and a non-operation state, and if the product preset time calculated through the preset information is in the time, the authenticity of actual production data of the glass product is influenced. The system server 1 can acquire more accurate data in the following manner.
A100: the actual plant operating time of the process control module 5 is obtained by the process control module 5.
The process control module 5 is configured to transmit actual process data to the system server 1 and determine whether a process module is running, and the process module is configured to control a process device, so that the actual device running time of the device corresponding to the process module can be obtained.
A200: judging and determining the product production time of the passed process.
And judging whether the process control module 5 operates in the product predicted production time of the process procedure. If the operation is carried out, the product production time of the process procedure is the product predicted production time. If not, adjusting according to the actual operation time, the production time, the inter-process interval time and a third preset condition of the equipment to form adjusted production time; the production time of the product in the process procedure is adjusted.
If the process control module 5 is in a normal operation state, the actual operation time of the equipment, which is transmitted to the system server 1 by the process module, is within a range corresponding to the predicted product production time calculated and presumed in the preset information, that is, the product production time may be defined as the product predicted production time; otherwise, the product production time should be adjusted with reference to the actual running time of the process control module 5 to obtain more accurate product production time.
In order to further improve the accuracy of product production information of glass products, reduce the direct entering of defective glass products into inventory and reduce the problem of defective shipment; before the system server 1 finishes judging whether the process control module 5 is operated in the product predicted production time of the process procedure, the system server is further configured to finish:
and judging whether the actual process data acquired by the process control module 5 is matched with the preset production process parameters or not.
Comparing actual process data corresponding to the actual running time of the equipment with production process parameters, and judging whether the process control module 5 runs normally or not; if the operation is normal, judging whether the process control module 5 operates in the product predicted production time of the process procedure; and if the product is not normally operated, marking the product as an abnormal product.
If the production process parameters in the preset information are correct, when the actual process data exceed the range of the production process parameters, the fact that the produced glass product possibly has problems is indicated, and therefore the product can be judged to be an abnormal product, so that the abnormal product can be controlled to flow out and even be delivered. Otherwise, the quality of the product meets the requirement, and the packaging can be continuously packaged for shipment.
If the equipment normally operates in the actual operation time, the product production information also comprises actual process data in the product production time of the process procedure.
The actual process data of the product in each production procedure is recorded as product production information, so that the production condition of the product can be conveniently and comprehensively recorded, the product can be conveniently traced when an abnormal product appears, the product in the same time or the same production plan information can be looked up, and the improvement of the overall control of the product quality is facilitated.
Example 2
The embodiment discloses a glassware production management system.
Referring to fig. 2, the glassware production management system of this embodiment further includes a standby server 7 connected to the system server 1, the data acquisition module 2, the viewing module 3, the pre-operation module 4, the process control module 5, and the display module 6, respectively, based on embodiment 1; the backup server 7 is controlled by the system server 1, and is used for backing up product production data stored in the system server 1 or receiving product production information in place of the system server 1 when the system server 1 fails.
The standby server 7 may further have a monitoring unit built therein, and the monitoring unit is configured to monitor whether the system server 1 is operating normally, so that when the system server 1 is abnormal, such as a failure, the system server 1 is replaced to receive data or instructions of the data acquisition module 2, the check module 3, the pre-operation module 4, the process control module 5, and the display module 6.
The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. A glassware production management system which characterized in that: the method comprises the following steps:
the system server (1) is used for storing and processing data;
the data acquisition module (2) is connected with the system server (1) and is used for acquiring product production information and outputting the product production information to the system server (1); the product production information comprises associated product category information and product production time;
the process control module (5) is connected with the system server (1) and is used for outputting actual process data and the operation time of the process control module (5) to the system server (1); and
the viewing module (3) is connected with the system server (1) and is used for outputting a viewing instruction; the viewing instruction at least comprises information of a production process or a product type;
the system server (1) is prestored with at least one product production plan information and at least one production flow, and the product production plan information is associated with one production flow; the product production plan information comprises the product category information; the production flow at least comprises one production procedure; each production process is associated with at least one process control module (5);
when the system server (1) receives product production information, product production plan information is associated through the product type information, and production procedures and actual process data are associated through a production flow, so that a data list comprising one or more of the product type information, the production procedures and the actual process data is formed;
when the system server (1) receives the viewing instruction, calling a corresponding data list according to the viewing instruction, and displaying the data list as a viewing result;
further comprising:
the system comprises a pre-operation module (4) which is connected with the system server (1) and used for sending preset information to the system server (1) according to a first preset condition; the preset information comprises product type information, production procedures, production flows and production process parameters; different production process parameters are associated with different production procedures;
the pre-operation module (4) is also used for establishing product production plan information according to the product type information, sequentially combining at least one production process to establish a production flow, associating the process control module (5) with the production process to form process plan data, associating the product production plan information with the production flow to form production plan data, and transmitting the product production plan information, the production flow, the process plan data and the production plan data to the system server (1);
the system server (1) is prestored with production process parameters, each production process is associated with an independent production process parameter, and the production process parameters comprise production duration of the corresponding production process; the production process is a packaging process or a process before the packaging process; the process procedure is associated with at least one process control module (5); the production flow at least comprises a packaging procedure;
the data acquisition module (2) is at least used for acquiring product production information of the packaging process;
the system server (1) judges whether the process procedure in the production flow of the same product production plan information has corresponding product production information or not according to the received product production information of the packaging procedure; and if not, supplementing and acquiring product production information corresponding to the process procedure in the production flow of the same product production plan information.
2. The glass article production management system of claim 1, wherein: the process procedure is a preparation procedure, an annealing procedure or a spraying procedure; the production flow also comprises the sequence of each production procedure;
the pre-operation module (4) is also used for presetting inter-process interval duration; the inter-process interval duration is the transmission demand time between adjacent production processes;
the supplementing and acquiring the product production information corresponding to the process in the production flow of the same product production plan information comprises the following steps:
acquiring production flow and product type information according to the product production plan information;
acquiring a process procedure according to the production flow;
calculating the product predicted production time of the corresponding process according to the production time and the inter-process interval time;
judging whether the product predicted production time is the product production time of the corresponding process procedure or not according to a second preset condition;
and if so, combining the product type information and the product production time to form product production information of a corresponding process.
3. The glass article production management system according to claim 2, wherein: the judging whether the product predicted production time is the product production time of the corresponding process procedure according to the second preset condition comprises the following steps:
acquiring the actual equipment running time of the corresponding process control module (5) through a process procedure;
judging whether a process control module (5) operates within the product predicted production time of the process procedure;
if the operation is carried out, the product production time of the process procedure is the product predicted production time;
if not, calculating according to the actual running time of the equipment, the production time and the interval time between the working procedures to obtain the adjusted production time; the production time of the product in the process procedure is adjusted.
4. The glass article production management system according to claim 3, wherein: before judging whether the process control module (5) is operated in the product prediction production time of the process procedure, the method further comprises the following steps:
comparing actual process data corresponding to the actual running time of the equipment with production process parameters, and judging whether the process control module (5) runs normally or not;
if the operation is normal, judging whether the process control module (5) operates in the product predicted production time of the process procedure;
and if the product is not normally operated, marking the product as an abnormal product.
5. The glass article production management system according to claim 4, wherein: and if the equipment normally operates in the actual operation time, the product production information also comprises actual process data in the product production time of the process procedure.
6. The glass article production management system according to claim 4, wherein: the pre-operation module (4) is also used for setting an exception handling process; the exception handling flow comprises a full inspection process;
the system server (1) is also used for associating an abnormal product with the abnormal processing flow.
7. The glass article production management system of claim 1, wherein: the system also comprises a display module (6) connected with the system server (1); the display module (6) is used for displaying product production plan information or actual process data.
8. The glass article production management system of claim 1, wherein: the system also comprises a standby server (7) which is respectively connected with the system server (1), the data acquisition module (2) and the viewing module (3); the standby server (7) is controlled by the system server (1) and is used for backing up product production data stored by the system server (1) or replacing the system server (1) to receive product production information when the system server (1) fails.
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