CN113065740B - High-efficiency product packaging management and control system, method and medium - Google Patents

Abstract

The invention discloses a high-efficiency product packaging management and control system, which comprises: the system comprises a set domain creating module, an information processing module, a physical address acquisition module and a checking module; the set domain creating module is used for creating a space coordinate set domain; the information processing module is used for acquiring layout distribution information and first sequence information of the outer box and acquiring first binding information according to the layout distribution information, the first sequence information and a space coordinate set domain; the physical address acquisition module is used for acquiring second sequence information of the product and acquiring a physical address of an outer box corresponding to the product based on the second sequence information and the first binding information; the checking module is used for executing checking measures according to the physical address to obtain a configuration signal and executing product packaging measures according to the configuration signal; the invention can accurately position the position of the outer box required by the product, thereby ensuring the product packaging correctness, reducing the control cost and improving the control efficiency.

Description

High-efficiency product packaging management and control system, method and medium

Technical Field

The invention relates to the technical field of server production configuration, in particular to a high-efficiency product packaging management and control system, a method and a medium.

Background

In the process of the production and rework of the server, information check is needed to be carried out on the label information of the secondarily utilized outer box and the produced label information of the server, and after the check is finished, if the information is consistent, the outer box can be matched with the server again for production and shipment; the existing label information checking method is to judge by naked eyes manually, the method is poor in stability, difficult to avoid server delivery errors caused by some invariability factors, and extremely high in cost and efficiency.

Disclosure of Invention

The invention mainly solves the problems that in the process of reworking of server production, the information verification method for the server and the outer box is difficult to avoid some ineffectiveness factors to cause server delivery errors, and the cost is overhigh and the efficiency is extremely low.

In order to solve the technical problems, the invention adopts a technical scheme that: provided is a high-efficiency product packaging management and control system, including:

the system comprises a set domain creating module, an information processing module, a physical address acquisition module and a checking module;

the set domain creating module is used for creating a space coordinate set domain;

the information processing module is used for acquiring layout distribution information and first sequence information of the master container and acquiring first binding information according to the layout distribution information, the first sequence information and the space coordinate set domain;

the physical address acquisition module is used for acquiring second sequence information of a product and acquiring a physical address of the outer container corresponding to the product based on the second sequence information and the first binding information;

the checking module is used for executing checking measures according to the physical address to obtain a configuration signal and executing product packaging measures according to the configuration signal.

As an improved solution, the set domain creating module includes a space setting module and a vectorization module;

the space setting module is used for setting a placing space;

the vectorization module is used for performing visualization processing on the placement space to obtain a space set domain, performing vectorization processing on the space set domain by the vectorization module to obtain the space coordinate set domain, and sending a first signal to the information processing module.

As an improved solution, the information processing module includes: the outer box placing module, the information obtaining module and the information binding module are arranged in the outer box;

the outer box placing module is used for placing the outer box into the placing space according to the first signal and sending a second signal to the information acquisition module;

the information acquisition module is used for acquiring the layout distribution information and the first sequence information of the outer container in the placement space according to the second signal, and assigning the first sequence information to the space coordinate set domain according to the layout distribution information;

the information binding module is used for acquiring a first coordinate of the first sequence information in the spatial coordinate set domain, and binding the first coordinate with the corresponding first sequence information to obtain the first binding information.

As an improved scheme, the physical address acquisition module comprises a product sequence import module and a query module;

the product sequence importing module is used for acquiring the second sequence information of the product and sending the second sequence information to the query module;

the query module is configured to execute a coordinate confirmation measure according to the second sequence information and the first binding information to obtain a second coordinate, and the query module obtains the physical address corresponding to the second coordinate in the layout distribution information.

As an improved solution, the verification module includes: the outer box sequence importing module, the comparing module and the executing module;

the master container sequence import module is used for acquiring third sequence information of the master container corresponding to the physical address;

the comparison module is used for executing the check measure according to the third sequence information to obtain the configuration signal;

the execution module is used for executing the product packaging measures according to the configuration signals.

As an improvement, the verification measure includes:

the comparison module compares whether the third sequence information is matched with the second sequence information, and if so, the comparison module sends the configuration signal to the execution module.

As an improvement, the product packaging means comprises:

and the execution module adopts the outer box corresponding to the third sequence information to package the product.

As an improvement, the coordinate confirmation measure includes:

the query module marks the first sequence information corresponding to the second sequence information in the spatial coordinate set domain as fourth sequence information; the query module sets the first coordinate in the first binding information corresponding to the fourth sequence information as the second coordinate.

The invention also provides a high-efficiency product packaging management and control method, which comprises the following steps:

creating a spatial coordinate set domain;

acquiring layout distribution information and first sequence information of an outer box, and acquiring first binding information according to the layout distribution information, the first sequence information and the space coordinate set domain;

acquiring second sequence information of a product, and acquiring a physical address of the outer box corresponding to the product based on the second sequence information and the first binding information;

and executing a verification measure according to the physical address to obtain a configuration signal, and executing a product packaging measure according to the configuration signal.

The present invention also provides a computer readable storage medium having stored thereon a computer program which, when executed by a processor, performs the steps of the high efficiency product packaging management and control method.

The beneficial effects of the invention are:

1. the high-efficiency product packaging management and control system can realize the establishment of a space coordinate set domain through the mutual cooperation of the set domain establishing module, the information processing module, the physical address acquisition module, the verification module and the backup processing module, accurately position the position of an outer container required by a product through the space coordinate set domain, and verify the sequence information of the product for multiple times, so that the consistency of results is ensured, the product packaging correctness is ensured, the product packaging management and control cost is reduced, and the product packaging management and control efficiency is greatly improved.

2. The high-efficiency product packaging management and control method can realize the establishment of the space coordinate set domain, accurately position the outer container position required by the product through the space coordinate set domain, and check the sequence information of the product for multiple times, thereby ensuring the consistency of the result, further ensuring the product packaging correctness, reducing the product packaging management and control cost and greatly improving the product packaging management and control efficiency.

3. The computer-readable storage medium can realize the cooperation of the guide set domain creating module, the information processing module, the physical address acquisition module, the check module and the backup processing module, further realize the establishment of the space coordinate set domain, accurately position the outer container position required by the product through the space coordinate set domain, and check the sequence information of the product for multiple times, thereby ensuring the consistency of the result, further ensuring the product packaging correctness, reducing the product packaging control cost, greatly improving the product packaging control efficiency and effectively increasing the operability of the high-efficiency product packaging control method.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a diagram of the high efficiency product packaging management and control system according to embodiment 1 of the present invention;

FIG. 2 is a schematic diagram of a specific architecture of a high-efficiency product packaging management and control system according to embodiment 1 of the present invention;

FIG. 3 is a schematic diagram of the effect of the spatial coordinate set domain according to embodiment 1 of the present invention;

fig. 4 is a schematic view of an effect of an operation interface of an information acquisition module according to embodiment 1 of the present invention;

fig. 5 is a schematic diagram illustrating an effect of an operation interface of the query module according to embodiment 1 of the present invention;

fig. 6 is a schematic view of an effect of an operation interface of the comparison module according to embodiment 1 of the present invention;

FIG. 7 is a flow chart of a method for packaging and controlling high efficiency products according to example 2 of the present invention;

fig. 8 is a specific flow chart of the method for controlling and packaging high-efficiency products according to embodiment 2 of the present invention.

Detailed Description

The following detailed description of the preferred embodiments of the present invention, taken in conjunction with the accompanying drawings, will make the advantages and features of the present invention more comprehensible to those skilled in the art, and will thus provide a clear and concise definition of the scope of the present invention.

In the description of the present invention, it should be noted that the described embodiments of the present invention are part of the embodiments of the present invention, and not all of the embodiments; all other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "first", "second", and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified and limited, the terms "spatial coordinate set domain", "layout distribution information", "sequence information", "binding information", "physical address", "verification measure", "configuration signal", "product packaging measure", "placement space", "visualization process", "vectorization process", "coordinate confirmation measure" should be understood in a broad sense. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1

The present embodiment provides a high-efficiency product packaging management and control system, as shown in fig. 1 to 6, including: the device comprises a set domain creating module, an information processing module, a physical address acquisition module, a check module and a backup processing module;

specifically, the application scenario of this embodiment is a factory rework operation process, in which an original inspection process is to manually pull a product to be shipped, remove and package the product, configure an outer box in a designated area, perform machine rework designated operation, confirm the outer box on the product, and package the product; the label information of the common product, namely the SN sequence code is 9 bits, and the SN sequence code of the label information of the outer box corresponds to the label information of the product; when the outer box is checked, whether the label information is consistent or not is finally checked through sequential alignment, and the method is too complicated and inefficient.

For such a scenario, the system described in this embodiment performs the following operations through the automated cooperation of the set domain creating module, the information processing module, the physical address obtaining module, the verification module, and the backup processing module, thereby avoiding artificial uncertainty and low efficiency, and solving the problems existing in the existing method:

specifically, the set domain creating module comprises a space setting module and a vectorization module;

specifically, the space setting module is used for setting a placing space, and the placing space is a specified area for orderly placing the outer boxes;

specifically, the vectorization module is configured to create a spatial coordinate set domain based on the placement space, and send a first signal to the information binding module;

specifically, the vectorization module performs visualization processing on the placement space, that is, performs area plane datamation and displays the area plane datamation on an operation interface to obtain a space set domain, and then performs vectorization processing on the space set domain, that is, divides the placement space into a set of points of equal units; the placing space after visualization processing and vectorization processing has corresponding horizontal coordinates and vertical coordinates, namely the placing space is the space coordinate set domain; in the present embodiment, the abscissa is sequentially arranged english letters a, B, C, D, e.. And the like, and the ordinate is an arabic numeral starting from 1, i.e., 1, 2, 3, 4, 5.. And the like; the selection of the abscissa and ordinate is not limiting and represents only one embodiment.

Specifically, the information processing module comprises an outer box placing module, an information obtaining module and an information binding module;

specifically, the outer box placing module is used for placing the outer box into the placing space after receiving the first signal, and sending a second signal to the information obtaining module after placing the outer box into the placing space;

specifically, the information obtaining module is configured to obtain layout distribution information of the outer container and first sequence information after receiving the second signal, and assign the first sequence information to the spatial coordinate set domain according to the layout distribution information of the outer container corresponding to the first sequence information;

specifically, the information binding module is configured to obtain a first coordinate of the first sequence information in the spatial coordinate set domain, and bind the first coordinate and the first sequence information to obtain first binding information;

specifically, layout distribution information of the outer box, namely physical layout information of the outer box can be acquired in a production workshop, sequence information of the outer box is input and bound according to the layout information, and the display form of the whole space coordinate set domain can be finally the same as the physical layout information of the outer box; for example, the sequence information of the master container recorded according to the physical layout information, that is, the SN serial number is 141000001, the position of the corresponding spatial coordinate set field is 1-a, the coordinate is (1, a), and the binding information is 141000001- (1, a); after the binding information is obtained, the coordinates of the binding information can be obtained only by inquiring the sequence information of the binding information, and then the position of the outer box is obtained.

Specifically, the physical address acquisition module comprises a product sequence import module and a query module;

specifically, the product sequence importing module is used for acquiring sequence information of a product;

specifically, the query module is used for acquiring coordinates of the outer box corresponding to the query module according to the sequence information of the product and acquiring a physical address of the outer box based on the coordinates;

specifically, second sequence information of the product is acquired through the product sequence information importing module, because the outer box to be used is consistent with the serial number of the product corresponding to the outer box, the query module searches the first sequence information corresponding to the outer box in the space coordinate set domain according to the second sequence information, the query module acquires the first coordinate in the binding information corresponding to the first sequence information, and because the coordinate corresponds to the layout distribution information, the physical address of the corresponding outer box can be acquired according to the first coordinate and the layout distribution information of the outer box;

specifically, the operation of the physical address acquisition module can perform preliminary matching on the sequence information of the product and the sequence information of the outer box to obtain an accurate physical address of the outer box, and according to the physical address, whether the outer box can be used for matching the product or not can be judged;

specifically, when acquiring the binding information, it is necessary to ensure that the sequence information of all the outer boxes is recorded, so that the final tag information verification result is more accurate, and if the unintyped sequence information exists, a shipment error phenomenon should finally occur; therefore, the physical address acquisition module is also provided with an alarm module; and alarming the outer container corresponding to the first sequence information which does not contain the binding information through the alarm module, namely outputting 'no coordinate information', assigning the first sequence information corresponding to the first sequence information to the space coordinate set domain according to the 'no label information', and binding the corresponding coordinate.

Specifically, the checking module comprises an outer box sequence importing module, a comparing module and an executing module;

specifically, the master container sequence import module is configured to obtain third sequence information of a master container corresponding to the physical address;

specifically, the comparison module is used for checking whether the third sequence information is consistent with the second sequence information of the product; if the first signal is consistent with the second signal, a third signal (namely a configuration signal) is sent to the execution module; if not, outputting prompt information;

specifically, the execution module is configured to package the product by using the outer box after receiving the third signal;

specifically, the outer box is prevented from being subjected to bag falling or some special conditions after the physical position of the outer box is confirmed, so that the outer box does not correspond to the physical position, secondary verification is performed through the verification module, and finally the outer box and a product are absolutely matched before use, so that the accuracy of product delivery is greatly improved; meanwhile, when the third sequence information is consistent with the second sequence information of the product, in a space coordinate set domain, the comparison module controls the coordinate corresponding to the third sequence information to display green, which indicates that the product passes through PASS; and when the third sequence information is inconsistent with the second sequence information of the product, in a spatial coordinate set domain, the comparison module controls the coordinate corresponding to the third sequence information to display red, which indicates that FAIL does not pass.

Specifically, the backup processing module is configured to clear coordinates and binding information in the spatial coordinate set domain after the entire rework operation is performed, so that the spatial coordinate set domain is reused.

In the high-efficiency product packaging management and control system described in this embodiment, each module is configured with a corresponding operation program and an operation interface, and the work of the module can be modified or configured through different operation interfaces, where the operation program is developed through C language, but a specific development tool and a specific development language are not limited here and are only used as an implementation manner; this system can be through establishing the utensil like spatial coordinates set domain the same with outer container physics and arranging, through mutually supporting of a plurality of scripts, and then realizes carrying out accurate location to the required outer container position of product to carry out the secondary check-up to its sequence information, guaranteed the uniformity of result, and reduced the check-up cost, very big improvement the check-up efficiency.

Example 2

The embodiment provides a high-efficiency product packaging management and control method, as shown in fig. 7 and 8, comprising the following steps:

in the scenario described in embodiment 1, the method described in this embodiment compiles the following steps in C language, and the steps are specifically the set of the operation programs described in embodiment 1, and the disadvantages of the existing method are solved:

s100, setting a placing space, and placing the outer box into the placing space, wherein the placing space is a specified area for orderly placing the outer box; creating a spatial coordinate set domain based on the placement space;

specifically, the placement space is divided into a set of points in equal parts, and the placement space after vectorization has corresponding abscissa and ordinate, which is the space coordinate set domain.

S200, after the outer box is placed in the placing space, layout distribution information and first sequence information of the outer box are obtained; assigning the first sequence information to the space coordinate set domain according to layout distribution information of the corresponding outer box; and acquiring a first coordinate of the first sequence information in the spatial coordinate set domain, and binding the first coordinate and the first sequence information to obtain first binding information.

S300, acquiring sequence information of the product, and acquiring coordinates of an outer box corresponding to the product according to the sequence information of the product; acquiring a physical address of the outer box based on the coordinates;

specifically, a product sequence information importing module is configured, second sequence information of a product is obtained through the product sequence information importing module, first sequence information corresponding to the second sequence information is searched in a spatial coordinate set domain according to the second sequence information, and a first coordinate in binding information corresponding to the first sequence information is obtained; obtaining a physical address of a corresponding outer box according to the first coordinate and layout distribution information of the outer box;

specifically, when acquiring the binding information, configuring an alarm module in a spatial coordinate set domain; and alarming the outer container corresponding to the first sequence information which does not contain the binding information through the alarming module, namely outputting 'no coordinate information', assigning the first sequence information corresponding to the first sequence information to the space coordinate set domain according to the 'no label information', and binding the corresponding coordinate of the first sequence information.

S400, acquiring third sequence information of the outer box corresponding to the physical address, checking whether the third sequence information is consistent with the second sequence information of the product, and if so, packaging the product by using the outer box; if not, outputting prompt information;

specifically, when the third sequence information is consistent with the second sequence information of the product, in a spatial coordinate set domain, controlling the coordinate corresponding to the third sequence information to display green, which indicates that PASS is performed; and when the third sequence information is inconsistent with the second sequence information of the product, controlling the coordinates corresponding to the third sequence information to display red in a space coordinate set domain, wherein the red indicates that the FAIL is not passed.

And S500, after the whole rework operation flow is executed, removing the coordinates and the binding information in the spatial coordinate set domain.

Specifically, the coordinates and binding information in the spatial coordinate set domain are cleared to facilitate reuse of the spatial coordinate set domain.

The high-efficiency product packaging management and control method described in this embodiment may also be developed through other development languages, and the specific development tool and the development language are not limited herein and are only used as an implementation manner.

Based on the same inventive concept as the high-efficiency product packaging control method in the foregoing embodiments, embodiments of the present specification further provide a computer-readable storage medium having a computer program stored thereon, where the computer program, when executed by a processor, implements the steps of the high-efficiency product packaging control method.

Different from the prior art, the high-efficiency product packaging management and control system, method and medium can realize accurate positioning of the outer container position required by a product by establishing the space coordinate set domain and mutually matching of the modules, and check the sequence information of the product for multiple times, so that the consistency of results is ensured, the product packaging correctness is ensured, the product packaging management and control cost is reduced, and the product packaging management and control efficiency is greatly improved.

The numbers of the embodiments disclosed in the embodiments of the present invention are merely for description, and do not represent the merits of the embodiments.

It will be understood by those skilled in the art that all or part of the steps of the above embodiments may be implemented by hardware, or a program executed by hardware and instructed by a program to be stored in a computer-readable storage medium, where the above-mentioned storage medium may be a read-only memory, a magnetic disk or an optical disk.

The above description is only an embodiment of the present invention, and is not intended to limit the scope of the present invention, and all equivalent structures or equivalent processes performed by the present invention or directly or indirectly applied to other related technical fields are included in the scope of the present invention.

Claims (9)

1. A high efficiency product packaging management and control system, characterized by comprising: the system comprises a set domain creating module, an information processing module, a physical address acquisition module and a checking module;

the set domain creating module is used for creating a space coordinate set domain;

the information processing module is used for acquiring layout distribution information and first sequence information of the outer box and acquiring first binding information according to the layout distribution information, the first sequence information and the space coordinate set domain;

the physical address acquisition module is used for acquiring second sequence information of a product and acquiring a physical address of the outer container corresponding to the product based on the second sequence information and the first binding information;

the checking module is used for executing checking measures according to the physical address to obtain a configuration signal and executing product packaging measures according to the configuration signal;

the set domain creating module comprises a space setting module and a vectorization module; the space setting module is used for setting a placing space; the vectorization module is used for performing visualization processing on the placement space to obtain a space set domain, performing vectorization processing on the space set domain by the vectorization module to obtain the space coordinate set domain, and sending a first signal to the information processing module.

2. The high efficiency product packaging management and control system of claim 1, wherein: the information processing module includes: the outer box placing module, the information obtaining module and the information binding module;

the outer box placing module is used for placing the outer box into the placing space according to the first signal and sending a second signal to the information acquisition module;

the information acquisition module is used for acquiring the layout distribution information and the first sequence information of the master container in the placement space according to the second signal, and assigning the first sequence information to the space coordinate set domain according to the layout distribution information;

the information binding module is used for acquiring a first coordinate of the first sequence information in the spatial coordinate set domain, and binding the first coordinate with the corresponding first sequence information to obtain the first binding information.

3. The high efficiency product packaging management and control system of claim 2, wherein: the physical address acquisition module comprises a product sequence import module and a query module;

the product sequence importing module is used for acquiring the second sequence information of the product and sending the second sequence information to the query module;

the query module is configured to execute a coordinate confirmation measure according to the second sequence information and the first binding information to obtain a second coordinate, and the query module obtains the physical address corresponding to the second coordinate in the layout distribution information.

4. The high efficiency product packaging management and control system of claim 1, wherein: the verification module comprises: the outer box sequence importing module, the comparing module and the executing module;

the master container sequence import module is used for acquiring the third sequence information of the master container corresponding to the physical address;

the comparison module is used for executing the check measure according to the third sequence information to obtain the configuration signal;

the execution module is used for executing the product packaging measures according to the configuration signals.

5. The high efficiency product packaging management and control system of claim 4, wherein: the verification measures comprise:

the comparison module compares whether the third sequence information is matched with the second sequence information, and if so, the comparison module sends the configuration signal to the execution module.

6. The high efficiency product packaging management and control system of claim 4, wherein: the product packaging means comprises:

and the execution module adopts the outer box corresponding to the third sequence information to package the product.

7. The high efficiency product packaging management and control system of claim 3, wherein: the coordinate confirmation measure includes:

the query module marks the first sequence information corresponding to the second sequence information in the spatial coordinate set domain as fourth sequence information; the query module sets the first coordinate in the first binding information corresponding to the fourth sequence information as the second coordinate.

8. A high-efficiency product packaging management and control method is characterized by comprising the following steps:

creating a spatial coordinate set domain; the step of creating a spatial coordinate set domain further comprises; setting a placing space; performing visualization processing on the placement space to obtain a space set domain, and performing vectorization processing on the space set domain to obtain the space coordinate set domain;

acquiring layout distribution information and first sequence information of an outer box, and acquiring first binding information according to the layout distribution information, the first sequence information and the space coordinate set domain;

acquiring second sequence information of a product, and acquiring a physical address of the outer box corresponding to the product based on the second sequence information and the first binding information;

and executing a verification measure according to the physical address to obtain a configuration signal, and executing a product packaging measure according to the configuration signal.

9. A computer-readable storage medium, having stored thereon, a computer program which, when executed by a processor, performs the steps of the high efficiency product packaging management method of claim 8.

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