CN115793592A - Monitoring information acquisition method and monitoring information acquisition device - Google Patents

Abstract

The invention is suitable for the technical field of information tracing, and provides a monitoring information acquisition method and a monitoring information acquisition device, which comprise the following steps: determining single processing detection equipment and continuous processing detection equipment, and determining the time interval range of each continuous processing detection equipment and a code scanning terminal; calling processing parameter batch information and/or detection parameter batch information corresponding to single-time processing detection equipment, and determining the processing parameter information and/or the detection parameter information as first monitoring information; and acquiring the processing parameter information and/or the detection parameter information of each continuous processing detection device in the corresponding time range according to the time interval range, and taking the processing parameter information and/or the detection parameter information as second monitoring information. Therefore, the first monitoring information can be accurate to one product, the second monitoring information can be accurate to the product and a plurality of nearby products during processing of the product, not a batch of products, although the second monitoring information is not accurate to one product, and the tracing effect is better.

Description

Monitoring information acquisition method and monitoring information acquisition device

Technical Field

The invention relates to the technical field of information tracing, in particular to a monitoring information acquisition method and a monitoring information acquisition device.

Background

In a modern manufacturing factory, all processing data and detection data can be monitored, the processing technology is guaranteed to be met, the processing data and the detection data are actually monitoring information reflecting the quality of products, the processing data and the detection data can be stored, the products can be conveniently traced, however, the tracing of all processing detection data of a single product is troublesome, the processing data and the detection data of the batch of the product can be automatically obtained at present, the tracing of the monitoring information is not accurate enough, and therefore a monitoring information obtaining method and a monitoring information obtaining device are needed to be provided, and the problem is solved.

Disclosure of Invention

In view of the shortcomings in the prior art, an object of the present invention is to provide a monitoring information obtaining method and a monitoring information obtaining apparatus, so as to solve the problems in the background art.

The invention is realized in such a way that a monitoring information acquisition method comprises the following steps:

receiving a monitoring information calling instruction input by a user, wherein the monitoring information calling instruction comprises product coding information;

reading product code information to obtain a production line, a production date and a product model, and inputting the product code information to a code scanning terminal of the production line to obtain code scanning time;

the method comprises the steps that production batch information and corresponding code scanning batch information are called according to a production line, a production date, a product model and code scanning time, wherein the production batch information comprises the product model, the processing quantity and the processing time period, and the code scanning batch information comprises the code scanning time of each product code information on a batch of products;

determining the number of digits of the product code information on code scanning batch information according to the code scanning time of the product code information;

determining single-processing detection equipment and continuous-processing detection equipment according to the product model and the production line, and determining the time interval range between each continuous-processing detection equipment and the code scanning terminal;

calling processing parameter batch information and/or detection parameter batch information corresponding to single-processing detection equipment, determining the processing parameter information and/or the detection parameter information according to the digits, wherein the determined processing parameter information and/or the detection parameter information are first monitoring information;

and acquiring the processing parameter information and/or the detection parameter information of each continuous processing detection device in the corresponding time range according to the time interval range, wherein the processing parameter information and/or the detection parameter information are second monitoring information.

As a further scheme of the invention: the step of determining single processing detection equipment and continuous processing detection equipment according to the product model and the production line, and determining the time interval range between each continuous processing detection equipment and the code scanning terminal specifically comprises the following steps:

inputting product models and production lines into a production line library, wherein the production line library comprises all production lines, each production line corresponds to one or more product models, and each product model corresponds to single-time processing detection equipment and continuous processing detection equipment;

outputting single-processing detection equipment and continuous processing detection equipment corresponding to the product model and the production line;

and determining the time interval range between each continuous processing detection device and the code scanning terminal, wherein each continuous processing detection device in the production line library is marked with the time interval range between the continuous processing detection device and the code scanning terminal.

As a further scheme of the invention: the step of calling the processing parameter batch information and/or the detection parameter batch information corresponding to the single-processing detection equipment and determining the processing parameter information and/or the detection parameter information according to the digits specifically comprises the following steps:

inputting production lot information and single-time processing detection equipment into a storage server to obtain processing parameter lot information and/or detection parameter lot information, wherein the processing parameter lot information and/or the detection parameter lot information comprise processing parameter information and/or detection parameter information generated when a batch of products are manufactured;

and determining processing parameter information and/or detection parameter information according to the digits, wherein the digits reflect the sequencing of the products in the processing parameter batch information.

As a further scheme of the invention: the step of obtaining the processing parameter information and/or the detection parameter information of each continuous processing detection device in the corresponding time range according to the time interval range specifically includes:

determining the processing detection time range of each continuous processing detection device according to the code scanning time and the time interval range;

and acquiring the processing parameter information and/or the detection parameter information of each continuous processing detection device in the corresponding processing detection time range.

As a further aspect of the present invention, the method further comprises: and integrating the first monitoring information and the second monitoring information to obtain a complete monitoring information flow.

Another object of the present invention is to provide a monitoring information acquiring apparatus, including:

the monitoring information calling module is used for receiving a monitoring information calling instruction input by a user, and the monitoring information calling instruction comprises product coding information;

the product information determining module is used for reading the product code information to obtain a production line, a production date and a product model, and inputting the product code information to a code scanning terminal of the production line to obtain code scanning time;

the batch information determining module is used for calling production arranging batch information and corresponding code scanning batch information according to a production line, a production date, a product model and code scanning time, wherein the production arranging batch information comprises the product model, the processing quantity and the processing time period, and the code scanning batch information comprises the code scanning time of each product code information on the batch of products;

the batch digit determining module is used for determining the digits of the product code information on the code scanning batch information according to the code scanning time of the product code information;

the processing detection equipment determining module is used for determining single processing detection equipment and continuous processing detection equipment according to the product model and the production line, and determining the time interval range between each continuous processing detection equipment and the code scanning terminal;

the first monitoring information module is used for calling processing parameter batch information and/or detection parameter batch information corresponding to the single-processing detection equipment, determining the processing parameter information and/or the detection parameter information according to the digits, and taking the determined processing parameter information and/or the detection parameter information as first monitoring information;

and the second monitoring information module is used for acquiring the processing parameter information and/or the detection parameter information of each continuous processing detection device in the corresponding time range according to the time interval range, wherein the processing parameter information and/or the detection parameter information are second monitoring information.

As a further scheme of the invention: the machining detection device determination module includes:

the production line input unit is used for inputting the product models and the production lines into a production line library, the production line library comprises all the production lines, each production line corresponds to one or more product models, and each product model corresponds to single-processing detection equipment and continuous-processing detection equipment;

the equipment output unit is used for outputting single-time processing detection equipment and continuous processing detection equipment corresponding to the product model and the production line;

and the time interval range unit is used for determining the time interval range of each continuous processing detection device and the code scanning terminal, and each continuous processing detection device in the production line library is marked with the time interval range of the code scanning terminal.

As a further scheme of the invention: the first monitoring information module includes:

the batch information input unit is used for inputting production batch information and single-time processing detection equipment into the storage server to obtain processing parameter batch information and/or detection parameter batch information, and the processing parameter batch information and/or the detection parameter batch information comprise processing parameter information and/or detection parameter information generated when the batch of products are manufactured;

and the parameter information determining unit is used for determining processing parameter information and/or detection parameter information according to the digits, and the digits reflect the sequencing of the products in the processing parameter batch information.

As a further scheme of the invention: the second monitoring information module includes:

the processing detection time unit is used for determining the processing detection time range of each continuous processing detection device according to the code scanning time and the time interval range;

and the parameter information acquisition unit is used for acquiring the processing parameter information and/or the detection parameter information of each continuous processing detection device in the corresponding processing detection time range.

Compared with the prior art, the invention has the beneficial effects that:

the processing parameter batch information and/or the detection parameter batch information corresponding to the single-time processing detection equipment can be automatically called, the processing parameter information and/or the detection parameter information are determined according to the digit, the determined processing parameter information and/or the detection parameter information are first monitoring information, and the first monitoring information can be accurate to a product; and acquiring processing parameter information and/or detection parameter information of each continuous processing detection device in a corresponding time range according to the time interval range, wherein the processing parameter information and/or the detection parameter information are second monitoring information, and the second monitoring information can be accurate to a product and a plurality of nearby products during processing of the product instead of a batch of products although the second monitoring information is not accurate to the product, so that the tracing effect is better.

Drawings

Fig. 1 is a flowchart of a monitoring information obtaining method.

Fig. 2 is a flowchart of determining a single processing detection device and a continuous processing detection device according to a product model and a production line, and determining a time interval range between each continuous processing detection device and the code scanning terminal in the monitoring information acquisition method.

Fig. 3 is a flowchart of calling processing parameter batch information and/or detection parameter batch information corresponding to a single-processing detection device in the monitoring information obtaining method, and determining the processing parameter information and/or the detection parameter information according to the digits.

Fig. 4 is a flowchart of a monitoring information obtaining method for obtaining processing parameter information and/or detection parameter information of each continuous processing detection device in a corresponding time interval range according to the time interval range.

Fig. 5 is a schematic structural diagram of a monitoring information acquiring apparatus.

Fig. 6 is a schematic structural diagram of a processing detection device determination module in the monitoring information acquisition device.

Fig. 7 is a schematic structural diagram of a first monitoring information module in a monitoring information obtaining apparatus.

Fig. 8 is a schematic structural diagram of a second monitoring information module in the monitoring information acquiring apparatus.

Detailed Description

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

Specific implementations of the present invention are described in detail below with reference to specific embodiments.

As shown in fig. 1, an embodiment of the present invention provides a monitoring information obtaining method, where the method includes the following steps:

s100, receiving a monitoring information calling instruction input by a user, wherein the monitoring information calling instruction comprises product coding information;

s200, reading product code information to obtain a production line, a production date and a product model, and inputting the product code information to a code scanning terminal of the production line to obtain code scanning time;

s300, according to a production line, a production date, a product model and code scanning time, scheduling batch information and corresponding code scanning batch information are called, wherein the scheduling batch information comprises the product model, the processing quantity and the processing time period, and the code scanning batch information comprises code scanning time of each product code information on the batch of products;

s400, determining the number of digits of the product code information on code scanning batch information according to the code scanning time of the product code information;

s500, determining single-processing detection equipment and continuous-processing detection equipment according to the product model and the production line, and determining the time interval range between each continuous-processing detection equipment and the code scanning terminal;

s600, calling processing parameter batch information and/or detection parameter batch information corresponding to the single-processing detection equipment, determining the processing parameter information and/or the detection parameter information according to the digits, and taking the processing parameter information and/or the detection parameter information determined by the single-processing detection equipment as first monitoring information;

and S700, acquiring the processing parameter information and/or the detection parameter information of each continuous processing detection device in the corresponding time range according to the time interval range, wherein the processing parameter information and/or the detection parameter information acquired by the continuous processing detection device is second monitoring information.

It should be noted that, in a modern manufacturing factory, all processing data and detection data are monitored to ensure that the processing technology is met, the processing data and the detection data are actually monitoring information reflecting the quality of a product, and the processing data and the detection data are stored to facilitate the tracing of the product, but the tracing of all processing detection data of a single product is troublesome, at present, only the processing data and the detection data of a batch of the product can be automatically acquired, and the tracing of the monitoring information is not accurate enough.

In the embodiment of the invention, when a user needs to call monitoring information of a certain product in a manufacturing process, a monitoring information calling instruction needs to be input, the monitoring information calling instruction comprises product coding information, each product is adhered or printed with the product coding information, the product coding information is unique, a production line, a production date and a product model can be obtained by reading the product coding information, the product coding information is input to a code scanning terminal of the production line, code scanning time for scanning the product coding information during processing is obtained, it needs to be stated that one code scanning terminal needs to be installed on each production line, specifically, the product scanning terminals can be installed at a packaging post, when the product is packaged and is taken off line, the code scanning terminals need to scan the product coding information, so that the code scanning terminals can record all the product coding information and the code scanning time, and the code scanning time is accurate to seconds; then, scheduling lot information and corresponding code scanning lot information at that time need to be called according to a production line, a production date, a product model and code scanning time, wherein it needs to be noted that after a lot of products are processed, code scanning lot information of the lot can be obtained, the code scanning lot information comprises the code scanning time of each product code information on the products of the lot, and the digit of the product code information on the code scanning lot information can be determined according to the product code information input by a user, namely the product is processed for the second time on the scheduling lot; then, determining single-processing detection equipment and continuous-processing detection equipment according to the product model and the production line, and determining the time interval range between each continuous-processing detection equipment and the code scanning terminal, wherein two kinds of equipment are arranged in the production line, one kind of equipment is single-processing detection equipment, and one piece of parameter information can be formed when each product is processed; the other is continuous processing detection equipment which can continuously work and continuously upload parameter information; then, processing parameter batch information and/or detection parameter batch information corresponding to the single-processing detection equipment needs to be called, the processing parameter information and/or the detection parameter information is determined according to the digits, the determined processing parameter information and/or the determined detection parameter information are first monitoring information, and the first monitoring information can be accurate to a product but not a batch of products; and acquiring the processing parameter information and/or the detection parameter information of each continuous processing detection device in the corresponding time range according to the time interval range, wherein the processing parameter information and/or the detection parameter information are second monitoring information, and the second monitoring information can be accurate to the product and a plurality of nearby products during processing of the product instead of a batch of products although the second monitoring information is not accurate to one product, so that the tracing effect is better.

As shown in fig. 2, as a preferred embodiment of the present invention, the step of determining a single-process detection device and a continuous-process detection device according to the product model and the production line, and determining a time interval range between each continuous-process detection device and the code scanning terminal specifically includes:

s501, inputting product models and production lines into a production line library, wherein the production line library comprises all production lines, each production line corresponds to one or more product models, and each product model corresponds to single-time processing detection equipment and continuous processing detection equipment;

s502, outputting single-time processing detection equipment and continuous processing detection equipment corresponding to the product model and the production line;

s503, determining the time interval range between each continuous processing detection device and the code scanning terminal, wherein each continuous processing detection device in the production line library is marked with the time interval range between each continuous processing detection device and the code scanning terminal.

In the embodiment of the present invention, a production line library is established in advance, the production line library includes all production lines, each production line corresponds to one or more product models, each product model corresponds to a single processing detection device and a continuous processing detection device, in addition, each continuous processing detection device is marked with a time interval range with a code scanning terminal, the time interval range is obtained according to a production tempo of a product, for example, the time interval range from a first device to the code scanning terminal is 1 minute 20 seconds to 1 minute 40 seconds, if the code scanning time is 10 months 20 days 9.

As shown in fig. 3, as a preferred embodiment of the present invention, the step of retrieving the processing parameter lot information and/or the detection parameter lot information corresponding to the single-process detection device, and determining the processing parameter information and/or the detection parameter information according to the bit number specifically includes:

s601, inputting production scheduling batch information and single-time processing detection equipment into a storage server to obtain processing parameter batch information and/or detection parameter batch information, wherein the processing parameter batch information and/or detection parameter batch information comprises processing parameter information and/or detection parameter information generated when a batch of products is manufactured (processed and detected);

s602, determining processing parameter information and/or detection parameter information according to the digits, wherein the digits reflect the sequencing of products in the processing parameter batch information.

In the embodiment of the invention, the parameter information is uploaded to the storage server for storage after being generated by the equipment, the parameter information is stored in groups according to the production scheduling batches, the production scheduling batch information and the single-time processing detection equipment are input into the storage server, the processing parameter batch information and/or the detection parameter batch information can be obtained, and then the processing parameter information and/or the detection parameter information corresponding to the product to be traced is determined according to the digit.

As shown in fig. 4, as a preferred embodiment of the present invention, the step of obtaining the processing parameter information and/or the detection parameter information of each continuous processing detection device in the corresponding time range according to the time interval range specifically includes:

s701, determining the processing detection time range of each continuous processing detection device according to the code scanning time and the time interval range;

s702, acquiring the processing parameter information and/or the detection parameter information of each continuous processing detection device in the corresponding processing detection time range.

In the embodiment of the invention, in order to acquire processing parameter information and/or detection parameter information with a narrow range, the processing detection time range of each continuous processing detection device is determined according to the code scanning time and the time interval range, so that more accurate processing parameter information and/or detection parameter information can be acquired according to the processing detection time range and used as second monitoring information; and finally, integrating the first monitoring information and the second monitoring information to obtain a complete monitoring information flow.

As shown in fig. 5, an embodiment of the present invention further provides a monitoring information obtaining apparatus, where the apparatus includes:

the monitoring information calling module 100 is configured to receive a monitoring information calling instruction input by a user, where the monitoring information calling instruction includes product coding information;

the product information determining module 200 is configured to read product code information to obtain a production line, a production date and a product model, and input the product code information to a code scanning terminal of the production line to obtain code scanning time;

the batch information determining module 300 is configured to retrieve production scheduling batch information and corresponding code scanning batch information according to a production line, a production date, a product model and code scanning time, where the production scheduling batch information includes the product model, the processing quantity and the processing time period, and the code scanning batch information includes code scanning time of code information of each product on the batch of products;

the batch digit determining module 400 is configured to determine, according to the code scanning time of the product code information, the digit of the product code information on the code scanning batch information;

the machining detection device determining module 500 is configured to determine a single-time machining detection device and a continuous machining detection device according to the product model and the production line, and determine a time interval range between each continuous machining detection device and the code scanning terminal;

the first monitoring information module 600 is configured to retrieve processing parameter batch information and/or detection parameter batch information corresponding to the single-processing detection device, determine the processing parameter information and/or the detection parameter information according to the digits, and use the processing parameter information and/or the detection parameter information determined by the single-processing detection device as first monitoring information;

the second monitoring information module 700 is configured to obtain, according to the time interval range, processing parameter information and/or detection parameter information of each continuous processing detection device in a corresponding time range, where the processing parameter information and/or the detection parameter information obtained by the continuous processing detection device is second monitoring information.

As shown in fig. 6, as a preferred embodiment of the present invention, the machining detection apparatus determining module 500 includes:

a production line input unit 501, configured to input product models and production lines into a production line library, where the production line library includes all production lines, each production line corresponds to one or more product models, and each product model corresponds to a single-processing detection device and a continuous-processing detection device;

an apparatus output unit 502 configured to output a single-process detection apparatus and a continuous-process detection apparatus corresponding to the product model and the production line;

a time interval range unit 503, configured to determine a time interval range between each continuous machining detection device and the code scanning terminal, where each continuous machining detection device in the production line library is marked with the time interval range of the code scanning terminal.

As shown in fig. 7, as a preferred embodiment of the present invention, the first monitoring information module 600 includes:

a batch information input unit 601, configured to input production lot information and single-process inspection equipment into a storage server to obtain processing parameter batch information and/or inspection parameter batch information, where the processing parameter batch information and/or inspection parameter batch information includes processing parameter information and/or inspection parameter information generated when a batch of products is manufactured;

a parameter information determining unit 602, configured to determine processing parameter information and/or detection parameter information according to the digits, where the digits reflect the ordering of the products in the processing parameter batch information.

As shown in fig. 8, as a preferred embodiment of the present invention, the second monitoring information module 700 includes:

a processing detection time unit 701, configured to determine a processing detection time range of each continuous processing detection device according to the code scanning time and the time interval range;

a parameter information acquiring unit 702, configured to acquire processing parameter information and/or detection parameter information of each continuous processing detection apparatus within a corresponding processing detection time range.

The present invention has been described in detail with reference to the preferred embodiments thereof, and it should be understood that the invention is not limited thereto, but is intended to cover modifications, equivalents, and improvements within the spirit and scope of the present invention.

It should be understood that, although the steps in the flowcharts of the embodiments of the present invention are shown in sequence as indicated by the arrows, the steps are not necessarily performed in sequence as indicated by the arrows. The steps are not performed in the exact order shown and described, and may be performed in other orders, unless explicitly stated otherwise. Moreover, at least a portion of the steps in various embodiments may include multiple sub-steps or multiple stages that are not necessarily performed at the same time, but may be performed at different times, and the order of performance of the sub-steps or stages is not necessarily sequential, but may be performed in turn or alternately with other steps or at least a portion of the sub-steps or stages of other steps.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by a computer program, which can be stored in a non-volatile computer-readable storage medium, and can include the processes of the embodiments of the methods described above when the program is executed. Any reference to memory, storage, database, or other medium used in the embodiments provided herein may include non-volatile and/or volatile memory, among others. Non-volatile memory can include read-only memory (ROM), programmable ROM (PROM), electrically Programmable ROM (EPROM), electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), dynamic RAM (DRAM), synchronous DRAM (SDRAM), double Data Rate SDRAM (DDRSDRAM), enhanced SDRAM (ESDRAM), synchronous Link DRAM (SLDRAM), rambus (Rambus) direct RAM (RDRAM), direct Rambus Dynamic RAM (DRDRAM), and Rambus Dynamic RAM (RDRAM), among others.

Other embodiments of the disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure herein. This application is intended to cover any variations, uses, or adaptations of the disclosure following, in general, the principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the disclosure being indicated by the following claims.

Claims (9)

1. A monitoring information acquisition method is characterized by comprising the following steps:

receiving a monitoring information calling instruction input by a user, wherein the monitoring information calling instruction comprises product coding information;

reading product code information to obtain a production line, a production date and a product model, and inputting the product code information to a code scanning terminal of the production line to obtain code scanning time;

the method comprises the steps that production batch information and corresponding code scanning batch information are called according to a production line, a production date, a product model and code scanning time, wherein the production batch information comprises the product model, the processing quantity and the processing time period, and the code scanning batch information comprises the code scanning time of each product code information on a batch of products;

determining the number of digits of the product code information on code scanning batch information according to the code scanning time of the product code information;

determining single-processing detection equipment and continuous-processing detection equipment according to the product model and the production line, and determining the time interval range between each continuous-processing detection equipment and the code scanning terminal;

calling processing parameter batch information and/or detection parameter batch information corresponding to the single-processing detection equipment, determining the processing parameter information and/or the detection parameter information according to the digits, and taking the processing parameter information and/or the detection parameter information determined by the single-processing detection equipment as first monitoring information;

and acquiring the processing parameter information and/or the detection parameter information of each continuous processing detection device in the corresponding time range according to the time interval range, wherein the processing parameter information and/or the detection parameter information acquired by the continuous processing detection device is second monitoring information.

2. The method for acquiring monitoring information according to claim 1, wherein the step of determining a single-processing detection device and a continuous-processing detection device according to the product model and the production line, and determining the time interval range between each continuous-processing detection device and the code scanning terminal specifically includes:

inputting product models and production lines into a production line library, wherein the production line library comprises all production lines, each production line corresponds to one or more product models, and each product model corresponds to single-time processing detection equipment and continuous processing detection equipment;

outputting single-processing detection equipment and continuous processing detection equipment corresponding to the product model and the production line;

and determining the time interval range between each continuous processing detection device and the code scanning terminal, wherein each continuous processing detection device in the production line library is marked with the time interval range between the continuous processing detection device and the code scanning terminal.

3. The method for acquiring monitoring information according to claim 1, wherein the step of retrieving the processing parameter lot information and/or the detection parameter lot information corresponding to the single-processing detection device and determining the processing parameter information and/or the detection parameter information according to the number of bits specifically comprises:

inputting production lot information and single-time processing detection equipment into a storage server to obtain processing parameter lot information and/or detection parameter lot information, wherein the processing parameter lot information and/or the detection parameter lot information comprise processing parameter information and/or detection parameter information generated when a batch of products are manufactured;

and determining processing parameter information and/or detection parameter information according to the digits, wherein the digits reflect the sequencing of the products in the processing parameter batch information.

4. The method for acquiring monitoring information according to claim 1, wherein the step of acquiring the processing parameter information and/or the detection parameter information of each continuous processing detection device in the corresponding time range according to the time interval range specifically includes:

determining the processing detection time range of each continuous processing detection device according to the code scanning time and the time interval range;

and acquiring the processing parameter information and/or the detection parameter information of each continuous processing detection device in the corresponding processing detection time range.

5. The monitoring information acquisition method according to claim 1, characterized by further comprising: and integrating the first monitoring information and the second monitoring information to obtain a complete monitoring information flow.

6. A monitoring information acquisition apparatus, characterized in that the apparatus comprises:

the monitoring information calling module is used for receiving a monitoring information calling instruction input by a user, and the monitoring information calling instruction comprises product coding information;

the product information determining module is used for reading the product code information to obtain a production line, a production date and a product model, and inputting the product code information to a code scanning terminal of the production line to obtain code scanning time;

the batch information determining module is used for calling production arranging batch information and corresponding code scanning batch information according to a production line, a production date, a product model and code scanning time, wherein the production arranging batch information comprises the product model, the processing quantity and the processing time period, and the code scanning batch information comprises the code scanning time of each product code information on the batch of products;

the batch digit determining module is used for determining the digits of the product code information on the code scanning batch information according to the code scanning time of the product code information;

the processing detection equipment determining module is used for determining single processing detection equipment and continuous processing detection equipment according to the product model and the production line, and determining the time interval range between each continuous processing detection equipment and the code scanning terminal;

the first monitoring information module is used for calling processing parameter batch information and/or detection parameter batch information corresponding to the single-processing detection equipment, determining the processing parameter information and/or the detection parameter information according to the digits, and taking the processing parameter information and/or the detection parameter information determined by the single-processing detection equipment as first monitoring information;

and the second monitoring information module is used for acquiring the processing parameter information and/or the detection parameter information of each continuous processing detection device in the corresponding time range according to the time interval range, and the processing parameter information and/or the detection parameter information acquired by the continuous processing detection device are second monitoring information.

7. The monitoring information acquisition apparatus according to claim 6, wherein the processing detection device determination module includes:

the production line input unit is used for inputting the product models and the production lines into a production line library, the production line library comprises all the production lines, each production line corresponds to one or more product models, and each product model corresponds to single-processing detection equipment and continuous-processing detection equipment;

the equipment output unit is used for outputting single-time processing detection equipment and continuous processing detection equipment corresponding to the product model and the production line;

and the time interval range unit is used for determining the time interval range of each continuous processing detection device and the code scanning terminal, and each continuous processing detection device in the production line library is marked with the time interval range of the code scanning terminal.

8. The monitoring information acquiring apparatus according to claim 6, wherein the first monitoring information module includes:

the batch information input unit is used for inputting production batch information and single-time processing detection equipment into the storage server to obtain processing parameter batch information and/or detection parameter batch information, and the processing parameter batch information and/or the detection parameter batch information comprise processing parameter information and/or detection parameter information generated when the batch of products are manufactured;

and the parameter information determining unit is used for determining processing parameter information and/or detection parameter information according to the digits, and the digits reflect the sequencing of the products in the processing parameter batch information.

9. The monitoring information acquiring apparatus according to claim 6, wherein the second monitoring information module includes:

the processing detection time unit is used for determining the processing detection time range of each continuous processing detection device according to the code scanning time and the time interval range;

and the parameter information acquisition unit is used for acquiring the processing parameter information and/or the detection parameter information of each continuous processing detection device in the corresponding processing detection time range.

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