CN112990800A - Method, system and storage medium for managing materials - Google Patents

Abstract

The application provides a method, a system and a storage medium for managing materials. The part warehousing system comprises a data management platform and an identification device, wherein the identification device is connected with the data management platform and used for information interaction, and the identification device is used for identifying a label on an incoming material part, wherein the information on the label comprises at least one of a bar code, a two-dimensional code, a character, a number and a character. Through the part management method, information such as bar codes, two-dimensional codes, characters and numbers on the labels can be intelligently identified, particularly, when the labels are of the second preset type, the identification precision is high, the system operation efficiency is high, manual input and calculation errors are avoided, manual checking time is saved, and the warehousing efficiency and accuracy of the parts are greatly improved.

Description

Method, system and storage medium for managing materials

Technical Field

The invention relates to the field of intelligent warehousing, in particular to a warehousing component management method,

A system and a storage medium.

Background

With the continuous development of science and technology and economic level, the demand on the management of the stored materials is continuously increased, the good storage management can effectively improve the distribution efficiency, most of the current packaging of the materials are attached with labels for marking the information, the labels are roughly divided into two types, one type of labels are provided with numbers and/or characters and printed with bar codes, and the second type of labels are provided with numbers and/or characters without bar codes. The parts are scanned and put in storage by adopting the scanning device when being received and put in storage, and the parts without bar codes need manual input and then are compared with data of a pre-input system one by one, so that the workload is large, the operation efficiency is low, the possibility of manual input errors exists, and the consequences caused by the bad products (such as wrong parts) caused by error identification are more inestimable.

Therefore, there is a need in the art for a method and system for managing components.

Disclosure of Invention

The embodiment of the invention aims to: a method and system for managing (intelligent warehousing) members are provided. The method has high identification precision, and can also realize high-precision identification even facing a label without a bar code or a two-dimensional code. The system carrying the method is simple and convenient to operate, and the warehousing efficiency is improved under the condition that the existing goods receiving and warehousing working hours are not increased.

In order to achieve the purpose, the technical scheme adopted by the application is as follows,

the system for warehousing the materials is characterized by comprising a data management platform and an identification device, wherein the identification device is connected with the data management platform for information interaction,

the identification device is used for identifying a label on a member, wherein the information of the label comprises at least one of a bar code, a two-dimensional code, a character, a number and a character. Therefore, the identification device can identify information of one or the combination of bar codes, two-dimensional codes, letters, numbers and characters on the labels of the parts, the efficiency of warehousing management of the parts is improved, and 100% correct identification of the parts can be achieved.

Preferably, the part warehousing system is characterized in that the identification device is a handheld identification device, the system further comprises a printing device connected with the identification device and used for printing a new label through the identification device after the identification device correctly identifies the label, and the new label comprises a two-dimensional code.

Preferably, the new label corresponds to a shelf match.

Preferably, the identification device comprises a sensor electrically connected to the control module for identifying the information on the label and feeding back the identified information to the processing module of the electrically connected control module, and the information processed by the processing module is displayed by the display unit. Preferably, the display unit has a human-computer interface or a virtual keyboard through which component information is input or the identification device is controlled.

The embodiment of the application provides a part management method, which comprises the part warehousing system, and the method comprises the following steps:

s1, identifying information on the label based on an identification device,

s2, the processing module receives information fed back by the identification device, wherein,

when the information on the tag contains a first preset type, it is in a first operating mode,

when the second preset type is included, the device is in a second working mode,

and when the label is of the first preset type, the label at least comprises a bar code and a two-dimensional code, and when the label is of the second preset type, the label comprises information of one or a combination of characters, numbers and characters. By using the method, the capability of the identification device for identifying the label as the second preset type is greatly improved, so that manual input and calculation errors are avoided, manual checking time is saved, and the warehousing efficiency and accuracy of the parts are greatly improved.

Preferably, in S2, the processing module receives the information fed back by the identification device and correctly identifies the information, and then reprints the label by the printing device.

Preferably, in the second operation mode, the method includes that the processing module receives the information fed back by the identification device and processes the information by data,

if the information of the label cannot be identified, the identification device is utilized to scan and identify again;

if the label is identified but the information does not exist, scanning and identifying again by utilizing the identification device;

if the information of the label is identified and the information exists, double information confirmation is carried out.

Preferably, the secondary information confirms the product including the component,

when the confirmation is carried out, the processing module receives the information fed back by the identification device and carries out data processing,

if the fact that the parts are consistent with the preset information is identified, the printing instruction is transmitted to a printing device electrically connected with the parts, the printing device receives and responds to the printing instruction to print a label,

if the number of the identified parts is inconsistent with the preset information, the number A is identified as the number B,

further confirming whether the B pin is identified as A pin,

if not, carrying out manual selection confirmation, establishing an identification model,

if yes, comparing with the model database of A and confirming the manual information. Preferably, after manual selection and confirmation are carried out, the input information is stored in the system, so that the efficiency of the type part is improved.

Preferably, the printing device receives and responds to the printing instruction to print the two-dimensional code label.

Preferably, the recognition device further comprises an input module for manually inputting one or a combination of characters, numbers and words,

when the manual selection is confirmed, one or the combination of the input characters, the numbers and the characters selected by the input module or partial information of the input part is matched with the information preset in the platform or the established recognition model, and the display unit displays the matched part information related to the matching information. In this way, the number of options is reduced. Preferably, the input module is integrated in the display unit (e.g., the display unit has a man-machine interface, has a touch function, and inputs the material information through the display unit).

An embodiment of the present application provides a computer-readable storage medium, on which a computer program is stored, wherein the program is configured to implement the method as described above when executed by a processor.

Advantageous effects

According to the intelligent warehouse-in management method for warehouse parts, information such as bar codes, two-dimensional codes, letters and numbers on the labels is identified, when the labels comprise the second preset type, the identification precision is high, and the system operation efficiency is high.

Drawings

In order to more clearly illustrate the embodiments of the present specification or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments described in the specification, and for those skilled in the art, other drawings can be obtained according to the drawings without inventive exercise:

fig. 1 is a schematic flow chart illustrating an intelligent warehousing method for warehouse components according to an embodiment of the present application;

fig. 2 and fig. 3 are schematic diagrams illustrating the identification of a second preset type tag according to an embodiment of the present application;

FIG. 4 is a schematic diagram of a training model of a component without a bar code label according to an embodiment of the present disclosure;

fig. 5 is a schematic diagram of a module of an intelligent warehouse section warehousing system according to an embodiment of the present application.

Detailed Description

In order to make those skilled in the art better understand the technical solutions proposed by the present invention, the technical solutions in the embodiments of the present specification will be clearly and completely described below with reference to the drawings in the embodiments of the present specification, and it is obvious that the described embodiments are only a part of the embodiments in the present specification, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from one or more of the embodiments described herein without making any inventive step, shall fall within the scope of protection of the present invention.

The embodiment of the application provides an intelligent warehouse entry management method for warehouse materials, and in the method, information of letters, numbers or combinations of the letters and the numbers can be recognized besides bar codes and two-dimensional codes on labels of the materials based on a recognition device. When the recognition device is in a mode of recognizing information of letters, numbers or a combination of the letters and the numbers, 100% correct recognition is achieved by combining a recognition model with a self-learning function. Therefore, manual input and calculation are avoided, manual checking time is saved, and the warehousing efficiency and accuracy of the parts are greatly improved. Therefore, on the basis of correctly identifying the bar code and the two-dimensional code, the warehousing management method improves the efficiency of section management when the label is of the second preset type, and can achieve 100% correct identification of the section.

The embodiments presented in the present application are described in detail below with reference to the accompanying drawings.

Fig. 1 shows a management method for intelligent warehousing of members in the embodiment of the present application, which includes the following steps:

s1, identifying information on the label based on an identification device,

s2, the processing module receives information fed back by the identification device, wherein,

when the information on the tag contains a first preset type, it is in a first operating mode,

when the second preset type is included, the device is in a second working mode,

when the type is a first preset type, the label at least comprises one of a bar code and a two-dimensional code,

and when the second preset type is adopted, the label contains information of one or the combination of characters, numbers and words. In the first working mode, if the recognition is correct, the recognition-based device enters the database according to a set rule, and if the recognition is abnormal, recognition confirmation is carried out again. And in the second working mode, the recognition device enters the database according to a set rule if the recognition is correct, and performs recognition again and confirmation if the recognition is abnormal. By the management method, the efficiency of warehousing the parts is improved. In the method, information of one or a combination of a bar code, a two-dimensional code, characters, numbers and characters on a label is identified by an identification device. The problem that manual input is needed when no bar code or two-dimensional code exists on the existing label is solved. This improves the reliability of the tag identification. The bar code or two-dimensional code on the label can be identified by other information when damaged (i.e., identified in the second mode of operation).

In one embodiment, if the tag includes a first predetermined type and a second predetermined type, the tag is default to operate in a first operating mode. In other embodiments, this is not limited to the above embodiments, and the recognition accuracy is improved.

In one implementation, the information of one or a combination of a bar code, a two-dimensional code, characters and numbers on the label is identified by an identification device.

In one embodiment, the method further includes, after the proper identification, reprinting a new label (e.g., printing a two-dimensional code label) based on the printing device, such that the externally received (supplier) component label is converted into an internally received label (e.g., a two-dimensional code label) that includes all information about the component. The two-dimensional code becomes a general ID mark of the member (material) in a company, becomes a new management mark standard, and further improves the turnover efficiency.

The following describes the section management method proposed in the present application with reference to fig. 2, 3 and 4, which identifies a second preset type tag; sometimes, the original bar code or two-dimensional code is arranged on the label, and the label can be identified when damaged by other factors. The method comprises the steps of (a) carrying out,

the processing module receives the information fed back by the identification device and processes the information by data,

if the information of the label can not be identified, the identification device is utilized to scan and identify again;

if the information of the label is identified but the information does not exist, scanning and identifying again by utilizing the identification device;

if the information of the label is identified and the information exists, double information confirmation (such as the information of the number of the primary confirmed parts and the information of the secondary confirmed parts) is carried out. Double information confirmation is adopted to further reduce the risk of using wrong members.

Confirming the quantity information of the members, when confirming,

if the number is correct (i.e. the number identified is consistent with the preset number), performing a second information confirmation,

if the number is incorrect (i.e. the number identified is not consistent with the preset number), then manual counting of the number is performed.

In the implementation method, when the parts are put in storage, according to actual needs, for example, the part information (such as the number of parts) of the batch to be put in storage is preset in the platform before each time of putting in storage according to batches (the parts of each batch can be different or the same), if the label of the part is of the second preset type, if the information of the label is identified and the information is in the preset information of the batch (namely the information exists), if the number is correct, secondary information confirmation is carried out; if the quantity is incorrect, counting the quantity manually, if the information of the label is identified and the information is not in the preset batch of information (namely the information does not exist), scanning the identification again by using the identification device. In other embodiments, if the label originally has a bar code or two-dimensional code but is damaged and cannot be read correctly, the product can be confirmed first.

Referring to fig. 3, the following description will take the example of confirming the material of the component during the second information confirmation. When the confirmation is carried out, the processing module receives the information fed back by the identification device and processes the data,

if the article of the part is identified to be consistent with the preset information, transmitting a correctly identified instruction to a printing device connected with the part, and receiving and responding the instruction by the printing device to print a label (for example, printing a two-dimensional code label);

if the identified material item is inconsistent with the preset information (i.e. item A is identified as item B),

further confirm whether Pinna B is identified as Pinna A

If yes, namely B pinner is identified as A pinner, then compared with the self-learning model database of A, the artificial information confirms that the probability of actually occurring is very low, the probability of the occurrence is about 3/10,000,000,000 after statistics, and can be ignored,

if not, the B product is not identified as A, manual selection confirmation is carried out, and an identification model is established. After manual selection confirmation, confirming that input information is stored in the system; preferably, a basic database of the part is created, which facilitates the efficiency in re-identifying the model part. The established recognition model may further include counting error-prone words/characters/numbers (e.g., the letter B is recognized as 8, please refer to fig. 4), so as to be utilized in the later encoding and naming rules, so as to improve the recognition accuracy and the operation efficiency of the part management in the next batch. The identification model may be established for each component (e.g., component a (abbreviated as a) and component B (abbreviated as B)). Preferably, the recognition device automatically generates a printing instruction after correct recognition and transmits the printing instruction to the printing device connected with the recognition device. The information confirming the input is stored in the system and can be transmitted to the data management platform through the identification device. In addition, the present embodiment is described by taking the identification of the members as an example, and other embodiments may be implemented in other manners, such as: the number and the supplier, packing method of the components, etc. are not limited herein.

In one embodiment, when manual selection confirmation is performed when pin B is not identified as pin a, selection may be performed by a button on the identification device (e.g., by up/down button selection), and queries may be obscured, such as: when some characters B1CB in the parts are input, the system will automatically remove the parts B1CB which are related to the characters but not in the current goods receiving range, thus reducing the selection items and improving the manual selection efficiency.

In one embodiment, in the second mode of operation, the identification device scans the label information from the component and compares it to the identification model of the component (i.e., the identified information matches/compares it to the underlying database),

if the identified information is not associated with the basic database and the information is correct, transmitting a correctly identified instruction to a printing device connected with the identifying information, and receiving and responding the instruction by the printing device to print a label (for example, printing a two-dimensional code label);

if the identified information is associated with the underlying database, a manual selection confirmation is performed. Through the design, the popup data during recognition is reduced, the workload of operators is reduced in practical application, and the working efficiency is improved.

Fig. 5 is a schematic block diagram of a component warehousing system according to an embodiment of the present application, where the system includes an identification device 200 connected to a (warehouse) data management platform 300 (preferably, the management platform stores information of components pre-recorded therein) in a wired or wireless manner, and the identification device identifies a tag 100 on a component. Preferably, the recognition device issues a prompt message (e.g., display the abnormality on its display device) if the abnormality is recognized. The identification means identifies information in the tag such as letters, numbers, etc. Preferably, the system further comprises a printing device, and the printing device prints the internal label according to the preset rule after the internal label is correctly identified (for example, a barcode-free label is printed with a new label (for example, a two-dimensional code label or other type of label) according to the preset rule, so that the use of other processes is facilitated). The part label which is taken in from the outside is converted into an internal label (such as a two-dimensional code label) which contains all information of the part, and the two-dimensional code becomes a universal ID (identity) of the part (material) in a company, becomes a new management identification standard, and further improves the turnover efficiency.

Preferably, the identification device includes a sensor for identifying information on the label, the sensor is electrically connected to the control module, the control module processes information fed back by the sensor, and the processed information is displayed by the display unit.

In one embodiment, the identification device is configured as a portable (i.e., handheld) scanner that carries a wireless module that is connected to a warehouse data management platform (e.g., a server).

In one embodiment, the identification device (e.g., a code scanning gun or a portable scanning gun) is used to directly scan the label of the part and compare the label with the pre-stored information (also called, scan the part label of the part to be warehoused and match with the receiving database, log in the part management platform), and the label information includes one of a bar code, a two-dimensional code, a character string or a number to perform rapid warehousing of the part. At present, even though the most advanced handheld identification device identifies letters and numbers, the identification precision is about ninety percent, the precision is lower when the letters and the numbers are combined, and if the 100 percent identification precision cannot be guaranteed, the device cannot be directly applied to the warehousing management of the parts. On the basis of the recognition model with the autonomous learning function, the recognition accuracy of 100% can be realized even when letters, numbers and combinations of the letters and the numbers are recognized. The risk of making mistakes during manual input is avoided, the manual checking time is saved, and the warehousing efficiency and accuracy of the parts are greatly improved.

In one embodiment, the above-mentioned identification device is used to directly scan a batch of materials, N (e.g. 100) number of the materials are preset, wherein M (e.g. 80) number of the materials are bar codes or two-dimensional codes, after the materials are correctly identified, the labels (e.g. two-dimensional code labels) are printed again according to the preset rules, and N-M (the remaining 20) number of the materials are not bar codes or two-dimensional codes (or are damaged), and then the operation is performed in the second operation mode, through the character strings and/or numbers (sometimes characters) on the identification labels, the display unit of the identification device displays the identification information of the identified materials, if the information is managed by the self-learning database, the information is displayed by the display unit for the operator to manually select and confirm, and the information manually selected and confirmed is stored in the system.

In one embodiment, the warehousing system has a comparison function, and the identification device is used for scanning the labels of the parts and comparing the labels with the pre-stored information. After the correct identification, the identification device can eliminate the identification information, so that the operation is very convenient. Compared with the manual comparison of the information one by one when the previous parts are put in storage, the storage system reduces the workload of operators and improves the working efficiency in practical application.

In one embodiment, the warehousing system is added with a comparison function of delivery records and receiving records, so that problems in the processes of receiving, transporting and loading on shelves on the day can be found in time.

In one embodiment, the two-dimensional code label of the material is matched and bound with the position information of the shelf, so that the corresponding material can be quickly found out when the material is delivered from a warehouse.

In one embodiment, the recognition device further includes an input module for manually inputting (or inputting by selecting a selection button on the input module) one or a combination of characters, numbers and characters, and when the manual selection is confirmed, the input module inputs one or a combination of characters, numbers and characters, or inputs part information of the part (matching with preset information or established recognition models in the platform according to the input part information), and automatically matches the part information associated with the part information according to the part information. Therefore, the selection items are reduced, and the efficiency of manual selection is improved.

Embodiments of the present application also provide a computer-readable storage medium, on which a computer program is stored, and when the computer program is executed by a processor, the management method is implemented.

It should be noted that, in the present specification, each embodiment is described in a progressive manner, and the same or similar parts in each embodiment may be referred to each other, and each embodiment focuses on differences from other embodiments. Especially, as for the device embodiment, the user terminal embodiment and the management platform embodiment, since they are basically similar to the method embodiment, the description is relatively simple, and the relevant points can be referred to the partial description of the method embodiment.

From the above description of the embodiments, it is clear to those skilled in the art that the present specification can be implemented by software plus a necessary general hardware platform. Based on such understanding, the technical solutions of the present specification may be essentially or partially implemented in the form of software products, which may be stored in a storage medium, such as ROM/RAM, optical disc, etc., and include several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the methods described in the embodiments or some parts of the embodiments of the present specification.

The description is operational with numerous general purpose or special purpose computing system environments or configurations. For example: personal computers, server computers, multiprocessor systems, programmable consumer electronics, minicomputers, distributed computing environments that include any of the above systems or devices, and the like.

This description may be described in the general context of computer-executable instructions, such as program modules, being executed by a computer. Generally, program modules include programs, components, data structures, etc. that perform particular tasks or implement particular abstract data types. The specification may also be practiced in distributed computing environments where tasks are performed by remote processing devices that are linked through a communications network. In a distributed computing environment, program modules may be located in both local and remote computer storage media including memory storage devices.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (10)

1. The system for warehousing the materials is characterized by comprising a data management platform and an identification device, wherein the identification device is connected with the data management platform for information interaction,

the identification device is used for identifying a label on a member, wherein the information of the label comprises at least one of a bar code, a two-dimensional code, a character, a number and a character.

2. The component warehousing system of claim 1, wherein the identification device is a handheld identification device, the component warehousing system further comprising a printing device connected to the handheld identification device for printing a new label through the identification device after the identification device correctly identifies the label, the new label comprising a two-dimensional code identification.

3. The sectional warehousing system of claim 2, wherein the new label corresponds to a shelf match.

4. A method for material management, the method comprising the steps of:

s1, identifying information on the label based on an identification device,

s2, the processing module receives information fed back by the identification device, wherein,

when the information on the tag contains a first preset type, it is in a first operating mode,

when the second preset type is included, the device is in a second working mode,

and when the label is of the first preset type, the label at least comprises a bar code and a two-dimensional code, and when the label is of the second preset type, the label comprises information of one or a combination of characters, numbers and characters.

5. The member management method according to claim 4, wherein in step S2, after the processing module receives the information fed back by the identification device and correctly identifies the information, the processing module transmits a print command to a printing device electrically connected to the processing module, and the printing device receives and responds to the print command to print a label.

6. The section management method according to claim 5, wherein a printing device receives and prints a two-dimensional code label in response to the print instruction.

7. A method according to claim 4, wherein, in the second mode of operation, the method includes, after the processing module receives the information fed back by the identification device and performs data processing,

if the information of the label cannot be identified, the identification device is utilized to scan and identify again;

if the information of the label is recognized, the secondary information of the part is confirmed.

8. A component management method according to claim 7, wherein said secondary information confirmation includes identification of the component, and when the secondary information confirmation is confirmed, the processing module receives information fed back from the identification device and performs data processing,

if the fact that the parts are consistent with the preset information is identified, the printing instruction is transmitted to a printing device electrically connected with the parts, the printing device receives and responds to the printing instruction to print a label,

if the article of the part is identified to be inconsistent with the preset information, namely article A is identified as article B, further confirming whether article B is identified as article A or not,

if not, the manual selection confirmation is carried out, the identification model is established,

if yes, comparing with the model database of A and carrying out manual confirmation.

9. A sectional material management method according to claim 8, wherein said identification means further comprises an input module for manually inputting one or a combination of characters, numbers, and letters,

when the manual selection is confirmed, one or the combination of characters, numbers and characters is input through the input module,

or the like, or, alternatively,

partial information of the input part is matched with information preset in the platform or the established recognition model, and the display unit displays matched and associated part information.

10. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the method of claim 4.

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