CN113919698A - Irradiation processing management system, irradiation processing management method, and computer-readable storage medium - Google Patents

Abstract

Embodiments of the present application provide an irradiation processing management system, a method, and a computer-readable storage medium, the irradiation processing management system including: the storehouse management module is used for establishing order information for the products entering the storehouse, and the order information comprises an order number, and the name, the number and the storage identification of the products related to the order number; the processing management module is used for establishing an irradiation processing task, and the processing management module is specifically used for: receiving an input order number, displaying the name, the quantity and the storage identification of a product related to the order number based on order information, and receiving the name and the quantity of the product expected to be irradiated to establish an irradiation processing task; and the storehouse management module is also used for modifying the storage identifier of the irradiated product after the irradiation processing task is finished. According to the irradiation processing management system, the irradiation processing management method and the computer readable storage medium, the management pressure of irradiation processing can be reduced, and the warehouse management efficiency can be improved.

Description

Irradiation processing management system, irradiation processing management method, and computer-readable storage medium

Technical Field

The present application relates to the field of irradiation processing technologies, and in particular, to an irradiation processing management system, method, and computer-readable storage medium.

Background

The irradiation processing enterprises utilize rays to perform irradiation processing on products, different products have different irradiation requirements, and each product involves multiple processes from warehousing to ex-warehouse, so that a large amount of process data can be generated, the state of the product is difficult to track in time, and the management burden is large.

Disclosure of Invention

In view of the above, the present application is directed to providing an irradiation processing management system, method and computer-readable storage medium that overcomes or at least partially solves the above problems.

According to a first aspect of embodiments of the present application, there is provided an irradiation processing management system, comprising: the warehouse management module is used for establishing order information for products entering the warehouse, and the order information comprises an order number, and the name, the number and the storage identification of the product associated with the order number; the processing management module is used for establishing an irradiation processing task, and the processing management module is specifically used for: receiving an input order number, displaying the name, the quantity and the storage identification of a product related to the order number based on the order information of the storehouse management module, and receiving the name and the quantity of the product expected to be irradiated to establish an irradiation processing task; and the storehouse management module is also used for modifying the storage identifier of the product after the irradiation processing task is finished by the processing management module.

According to a second aspect of embodiments of the present application, there is provided an irradiation processing management method including: establishing order information for a product entering a warehouse, wherein the order information comprises an order number, and a name, a quantity and a storage identification of the product associated with the order number; establishing an irradiation processing task, wherein the establishing of the irradiation processing task comprises the following steps: inputting an order number to acquire the name, the number and the storage identification of the product associated with the order number, and selecting the name and the number of the product expected to be irradiated to establish an irradiation processing task; and after the irradiation processing task is completed, modifying the storage identifier of the irradiated product.

According to a third aspect of embodiments herein, there is provided a computer readable storage medium having stored thereon computer readable instructions which, when executed by a computer, implement a method according to the second aspect of embodiments herein.

According to the irradiation processing management method, the irradiation processing management system and the computer-readable storage medium, the order number and the product name can be used as the identifier to control the whole irradiation processing flow, so that the management pressure is reduced, and the warehouse management efficiency is improved.

Drawings

Fig. 1 is a schematic view of an application scenario of an irradiation processing management system according to an embodiment of the present application;

FIG. 2 is a schematic view of an irradiation processing management system according to an embodiment of the present application;

FIG. 3 is a schematic illustration of an irradiation processing management system according to another embodiment of the present application;

FIG. 4 is a schematic diagram of an operator categorization according to an embodiment of the present application;

FIG. 5 is a flow chart of a radiation processing management method according to an embodiment of the present application;

FIG. 6 is a schematic diagram of a computer-readable storage medium according to an embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more clear, the technical solutions of the present application will be described below in detail and completely with reference to the accompanying drawings of the embodiments of the present application. It should be apparent that the described embodiment is one embodiment of the present application and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the described embodiments of the application without any inventive step, are within the scope of protection of the application.

It is to be noted that, unless otherwise defined, technical or scientific terms used herein shall have the ordinary meaning as understood by those of ordinary skill in the art to which this application belongs. If the description "first", "second", etc. is referred to throughout, the description of "first", "second", etc. is used only for distinguishing similar objects, and is not to be construed as indicating or implying a relative importance, order or number of technical features indicated, it being understood that the data described in "first", "second", etc. may be interchanged where appropriate. If "and/or" is presented throughout, it is meant to include three juxtapositions, exemplified by "A and/or B" and including either scheme A, or scheme B, or schemes in which both A and B are satisfied.

First, an irradiation processing management system is provided in the embodiments of the present application, and fig. 1 shows a schematic view of a usage scenario of the irradiation processing management system, where the irradiation management system may include a client running on one or more terminals 11, and a database built in a server 12, where the database may store various data generated in the irradiation processing management system, and each terminal 11 may be connected to the server 12 through an ethernet network and perform data exchange. The terminal 11 may be any suitable terminal device, such as a mobile phone, a tablet computer, a notebook computer, and the like, a client of the irradiation processing management system may be executed on the terminal 11 in the form of a web page, an app, and the like, and an operator may execute the client using the terminal 11 to implement the functions of the irradiation processing management system described below.

Referring to fig. 2, the irradiation processing management system may include a warehouse management module 21 and a processing management module 22. The warehouse management module 21 is configured to establish order information for the products entering the warehouse, where the order information includes an order number, and a name, a quantity, and a storage identifier of the product associated with the order number. The processing management module 22 is configured to establish an irradiation processing task, and when the irradiation processing task is established, the processing management module is specifically configured to: the method comprises the steps of receiving an input order number, displaying the name, the number and the storage identification of a product related to the order number based on order information of the warehouse management module, and receiving the name and the number of the product expected to be irradiated to establish an irradiation processing task. The warehouse management module 21 is further configured to modify the storage identifier of the product after the irradiation processing task is completed.

Specifically, the warehouse management module 21 is used to establish order information after a new batch of products enters the warehouse, and the order information is uploaded and stored in the server 12 after the establishment is completed. One order number may be associated with one product being put in storage at this time, or may be associated with multiple products being put in storage at this time, and the association may specifically be that when the order number is input, the name, number, and storage identifier of one or more products related to the order number may be called from the server 12, so that, in the whole irradiation processing flow, the order number may be used as an identifier to perform real-time monitoring on the product state.

The storage identity may be used to indicate the storage location of the product in the warehouse, for example the storage identity may be specific to a certain area, a certain room or even a certain shelf. The storage identifier may also be used to indicate the storage status of the product, for example, the product may be currently in stock, in production, out of stock, etc., as will be described in detail in the relevant sections below. In some cases, products associated with a certain order number may be assigned to different irradiation processing tasks, at this time, products with the same name may have different status identifiers, and at this time, the number of products respectively displaying each status identifier may be selected, so as to facilitate more accurate tracking of the products.

The process management module 22 may be used to establish irradiation processing tasks. When an irradiation processing task is established, an order number may be input into the processing management module, as described above, at this time, the processing management module 22 may call and display the name, the number, and the storage identifier of the product associated with the order number from the server, and thereafter, may receive the name and the number of the product desired to be irradiated, which are input by the user, and establish the irradiation processing task, and the user may select the name and the number of the product desired to be processed according to the actual situation, without allocating all the number of certain products to one irradiation processing task. The process management module 22 may display data to the user and receive data input by the user in a suitable interactive manner, in one embodiment, the user may input an order number by clicking, pulling down, or directly inputting, etc., and then the process management module 22 may present names, quantities, storage identifications, etc. of products associated with the order number in a form in the display interface, and the user may further input the product names and quantities desired to be irradiated by clicking, pulling down, directly inputting, etc. In some embodiments, process management module 22 further provides input limits for the numerical values, such as prohibiting input of product names other than the product name associated with the order number, prohibiting input of numerical values greater than the total inventory quantity of the product, and so forth, to further improve operator input efficiency and avoid errors.

After the creation of the irradiation processing task is completed by the processing management module 22, irradiation processing may be started, for example, the processing management module 22 may allocate the irradiation processing task to a relevant device for irradiation processing, and remind a relevant person to transport a product in the irradiation processing task to the relevant device to start irradiation processing. The specific implementation of the irradiation processing can refer to the irradiation processing technology existing in the field, and is not described in detail herein.

Upon completion of the irradiation processing task, the warehouse management module 21 may be used to modify the stored identity of the products for which irradiation has been completed. Through the modification of the storage identification, the user can clearly manage and control the storage state of the product, and the storage state of the product can be tracked through the order number, so that the warehouse management pressure can be reduced, and the management efficiency is improved.

In some embodiments, the irradiation-completed product may be shipped directly without being returned to the warehouse again, at which point the stored identity may include in-stock and out-of-stock, and the modification to the stored identity of the irradiation-completed product may be to modify it to be out-of-stock. In some embodiments, the storage identifier may include in-stock, in-process, and out-of-stock, and at this time, after the irradiation processing task is established or started to be executed, the storage identifier of the product to be irradiated may be modified into in-process, and then after the irradiation processing task is finished, the storage identifier of the product whose irradiation has been finished may be modified into out-of-stock.

The modification of the storage identifier may be automatically performed by the storage management module 21, for example, after the irradiation processing task is finished, the processing management module 22 transmits the information of the task end to the storage management module 21 (e.g., via a server), and the storage management module 21 may automatically perform the storage identifier of the irradiated product after obtaining the information. In some embodiments, the repository management module 21 may issue a reminder notification to remind the user to manually modify the storage identity.

The modification method of the storage identifier may be to create a new column of storage identifiers under the corresponding product name and add the number, and then modify the number corresponding to the original storage identifier correspondingly, taking the example that the storage identifier includes the inventory and the ex-warehouse, where the initial storage identifier and the number of the product a associated with a certain order number are: 60 stock, when 30 of them have finished irradiating, the storage identifier can be modified as: 30, 30 are delivered from the stock. When the storage identifier further includes other information, the storage identifier may also be modified in a similar modification manner, and details of relevant parts in the following description will not be repeated.

In some embodiments, the irradiated product may still need to be returned to the warehouse for storage, and wait for the final ex-warehouse, for convenience of management, the warehouse may be optionally set to include an unirradiated region and an irradiated region, the storage identifier may include a storage region of the product, and understandably, the product is stored in the unirradiated region when being put in storage, and after the irradiation processing task is completed, the warehouse management module 21 may be configured to modify the storage region in the storage identifier of the irradiated product into the irradiated region. As described above, the modification may be done automatically by the warehouse management module 21 or may be entered manually by the user.

In some embodiments, the storage identifier may further include a specific storage location of the product in the storage area, for example, a specific storage location to a certain partition, a certain shelf, and the like, after the irradiation processing task is completed, the warehouse management module 21 may further modify the storage identifier based on an actual storage location of the product that has been irradiated in the irradiated area, specifically, the warehouse management module 21 may receive a storage location input by a user and modify the storage identifier, and the user may input the storage location by way of a pull-down selection, a click selection, a direct input, and the like. As described above, after the irradiation processing task is completed, the warehouse management module 21 may send a notification to remind the user to modify the storage identifier, thereby improving the work efficiency.

In some embodiments, the warehouse management module 21 may also be configured to display the number of products in the unirradiated region and the irradiated region in real time, for example, the total number of all products in the unirradiated region (including all order numbers and all product names associated with each order number) may be displayed, so as to visually display the indexes of the warehouse, such as the stock state, the stock pressure, and the production pressure. In some embodiments, one skilled in the art may also select to display the number of products that enable the warehouse management module 21 to be more refined, such as displaying the number of products from different orders separately, displaying the number of products in different locations in the unirradiated and irradiated regions separately, and so forth.

In some embodiments, referring to FIG. 3, the irradiation processing management system further comprises a customer management module 23, the customer management module 23 for managing customer information and product information associated with the customer information. The customer information can comprise information such as a customer abbreviation, a customer name, a customer address, an account number of an account opening bank, an account number of the account opening bank, a telephone number, a taxpayer identification number, a settlement mode, an affiliated industry and the like; the customer product information includes information on product name, product shape (square/cylinder), unit of measure (box/bag/piece), package size (length/width/height), weight of individual piece, minimum dose requirement, maximum dose requirement, unit price, etc., which may be stored in the server 12. The customer management module 23 may have functions of creating, modifying, and deleting customer and product information.

When the library management module 21 establishes order information for a newly put product, the library management module 21 may call data from the client management module 23, and the library management module 21 may call data of the library management module 23 through local communication or via the server 12. Specifically, when order information is established, the stored customer information may be displayed to a user, the user may input customer information corresponding to a newly warehoused product, based on the input customer information, the warehouse management module 21 may present product information associated with the customer information, and then may receive an instruction that the user selects a name, a quantity, and a storage identifier of a product entering the warehouse among the product information to determine the name, the quantity, and the storage identifier of the product entering the warehouse, and the input mode of the user may refer to the above-described mode, which is not described herein again. After determining the name, number, and storage identifier of the product entering the warehouse, the warehouse management module 21 may automatically generate an order number, and then associate the order number with the product being warehoused at this time, as described above, the order number will be used as an identifier in the subsequent processing flow, and the tracking of the batch of warehoused products may be realized through the order number. The order information is established based on the pre-stored customer information, so that related operators can fill related products conveniently, and the product warehousing efficiency is improved.

In some embodiments, still referring to fig. 3, the irradiation processing management system further includes a process management module 24, and the process management module 24 is configured to determine an irradiation process parameter corresponding to each product, and irradiate the product according to the irradiation process parameter when the irradiation processing task is performed. The irradiation process parameters can include set dose, beam power, PPS, transmission speed, pass on the front side, pass on the back side, trigger height, scanning width, A \ B \ C surface (stacking mode of products in the tray) and the like. The irradiation process parameters may be pre-stored in the server 12 and may be associated with product names and/or customer information, for example, a user selecting a product name will automatically call the irradiation process parameter associated with the product name from the server, so that the irradiation process parameters of the product can be set quickly. Of course, the process management module 24 may also provide user-initiated input options that enable a user to input irradiation process parameters according to specific irradiation needs or modify irradiation process parameters based on a call. In some embodiments, the setting of the irradiation process parameters may be performed after the product is put in storage, or the irradiation process parameters may be set when the irradiation processing task is established, and the setting may be completed only before the irradiation processing task is actually executed, which is not specifically limited. The irradiation process parameters of various products are uniformly managed through the process management module 24, so that the production efficiency can be further improved, and a lengthy confirmation process before the irradiation processing task is started is avoided. In some embodiments, the process management module 24 may be communicatively coupled to the irradiation processing equipment to enable direct transmission of irradiation process parameters to the irradiation processing equipment performing the irradiation processing task, improving efficiency and reducing the probability of error.

In some embodiments, process management module 22 is also used to record the start time, end time, and operator of the irradiation processing task. Specifically, an operator may log in the processing management module 22 to establish an irradiation processing task and send an instruction to start execution, and then the processing management module 22 may record the time when the irradiation processing task starts and record the operator, where the operator may include the operator who establishes the irradiation processing task and the operator who actually executes the irradiation processing task, and after the irradiation processing task ends, the processing management module 22 records the end time and may transmit relevant data of the task to the server 12 for storage.

In some embodiments, the irradiation processing management system further comprises a financial management module 25 for counting irradiation processing tasks completed within a predetermined time range according to the start time and the end time of the irradiation processing tasks to generate a charging bill. Specifically, the financial management module 25 may count the irradiation processing tasks completed within a predetermined time range, and then calculate and collect the costs generated by each irradiation processing task. In some embodiments, the financial management module 25 may also sort the irradiation processing tasks completed within a predetermined time frame based on customer information or order information. In some embodiments, as described above, the product information of customer management module 23 may include the unit price of the product for irradiation, and financial management module 25 may calculate the billing rate for each irradiation processing task based on the number of products in the task and the unit price of irradiation. In some embodiments, when setting the irradiation process parameters, the irradiation unit price of the product may be calculated according to the irradiation process parameters and then uploaded to the server 12, and then the financial management module 25 may calculate the irradiation cost according to the product name and the number in the irradiation processing task. After some embodiments, the operator may also enter the cost of the irradiation processing task and upload it to the server 12 according to the actual irradiation situation after the irradiation processing task is finished. Those skilled in the art can also select a reasonable cost calculation method according to actual situations, and details are not described herein. In some embodiments, financial management module 25 may also provide historical billing information query functionality, which may be queried, for example, by order number, customer information, and the like.

In some embodiments, the irradiation processing management system further comprises a quality management module 26, the quality management module 26 is configured to receive an instruction for performing quality inspection on the irradiated product, and the warehouse management module 21 modifies the stored identifier of the irradiated product after the quality inspection is confirmed to be qualified. In particular, the instructions may be sent by the process management module 22 to the quality management module 26 after the irradiation processing task is completed. The quality management module 26 may prompt the relevant operator to perform quality inspection on the irradiated product or start the relevant equipment to perform quality inspection after receiving the instruction. After the quality inspection is qualified, the operator may confirm that the quality inspection of the irradiated product is qualified in the quality management module 26, and then the quality inspection module 26 may send information to the warehouse management module 21 to remind relevant personnel to perform relevant processing such as warehouse-out and position transfer on the product qualified in the quality inspection, and modify the storage identifier. Specific quality inspection criteria may be set by one skilled in the art according to actual irradiation requirements, and are not particularly limited, and products that fail quality inspection may be selected for re-irradiation or discarded.

In some embodiments, the irradiation processing management system further comprises an information query module 27, wherein the information query module 27 is configured to receive the input order number and present order information associated with the order number, as described above, the order information may include the name, number and storage identifier of the product, so that the operator can track the relevant product through the order number at any time to obtain the status of the product in the order. In some embodiments, the information query module 27 may also present irradiation process parameters, quality inspection information, irradiation processing task information, etc. of the products in the order number, and may also provide a warehouse-out history record, etc. for the products that have already been shipped out (the order number that has completed shipment), and so on.

In some embodiments, the irradiation processing management system may further include a personnel management module 28 for managing and verifying operational privileges. Specifically, the person management module 28 may verify the operation authority of the operator before the operator operates any one of the modules described above, and the operator who has been verified by the operation authority can perform the operation. The personnel management module 28 may store personal information of the operator including user gender, birth date, school calendar, contact number, hometown, residential address, etc., and the personnel management module 28 may allow the authenticated operator to create, modify, or delete the personal information of the operator.

In some embodiments, different operators may be assigned different operation authorities so that they can operate the modules corresponding to their operation authorities, and referring to fig. 4, the operators may be divided into roles of a warehouse manager 41, a process manager 42, a process manager 43, a quality manager 44, a finance manager 45, and the like, and assigned corresponding operation authorities, for example, the warehouse manager 41 has the operation authority to use the warehouse management module 21, the process manager 43 has the operation authority of the process management module 22, and the like. In some embodiments, some modules may be open to operators having any operating authority without the operators having specific operating authorities, e.g., information query module 27 may be open to operators such as warehouse manager 41, process manager 42, process manager 43, etc. In some embodiments, some operators may be super administrators, and the operation administrators may have a right to operate all modules, and a person skilled in the art may set the operators and corresponding operation rights through the person management module 28 according to actual needs, which is not described herein again.

In some embodiments, the irradiation processing management system may be configured with an automatic reminding function, and after the above modules complete the related operations, a reminder is sent to the module corresponding to the next process according to the irradiation processing process. An exemplary irradiation process flow may include: in such an embodiment, after the warehouse management module 21 completes establishment of order information, information may be automatically sent to the process management module 24 to remind relevant operators of completing the setting of the irradiation process parameters of the product using the process management module 24, and after the processing management module 22 confirms completion of the irradiation processing task, information may be automatically sent to the quality management module 26 to remind relevant operators of performing quality inspection, and information related to the irradiation processing task may be automatically sent to the financial management module 25 to generate a bill. After the quality is qualified, information may be automatically sent to the warehouse management module 21 to remind relevant personnel to perform operations such as going out of the warehouse or moving into the irradiated area, and the storage identifier may be modified accordingly. The setting of the related reminding function can be performed by those skilled in the art according to the actual irradiation processing flow, and is not described herein again.

There is also provided, in accordance with an embodiment of the present application, an irradiation processing management method, referring to fig. 5, including:

step S502: order information is established for the products entering the warehouse, the order information including an order number, and a name, quantity, and storage identification of the product associated with the order number.

Step S504: establishing an irradiation processing task, wherein the establishing of the irradiation processing task comprises the following steps: the order number is input to obtain the name, number and storage identification of the product associated with the order number, and the name and number of the product desired to be irradiated are selected to establish the irradiation processing task.

Step S506: and after the irradiation processing task is finished, modifying the storage identification of the irradiated product.

The relevant steps in the irradiation processing management method may be implemented by using the irradiation processing management system described above, and the relevant technical details may refer to the relevant description above, which are not described herein again.

In some embodiments, the storage identifier comprises a storage area of the product in the warehouse, the storage area comprises an unirradiated region and an irradiated region, and modifying the storage identifier of the irradiated product comprises modifying the storage area in the storage identifier of the irradiated product into an irradiated region.

In some embodiments, the stored identity further comprises a storage location of the product in the storage area, and modifying the stored identity of the irradiated product comprises modifying the stored identity in dependence on an actual storage location of the irradiated product in the irradiated area.

In some embodiments, the method further comprises displaying the quantity of product in the unirradiated zone and the irradiated zone in real time.

In some embodiments, establishing order information comprises: presenting product information associated with the customer information based on the entered customer information; receiving an instruction of selecting the name, the number and the storage identifier of the product entering the storeroom in the product information so as to determine the name, the number and the storage identifier of the product entering the storeroom; an order number is generated and associated with the name, quantity and storage identification of the product entering the warehouse.

In some embodiments, the method further comprises: and determining the irradiation process parameters corresponding to each product, and irradiating the products according to the irradiation process parameters when the irradiation processing task is executed.

In some embodiments, the method further comprises: and recording the starting time, the ending time and the operator information of the irradiation processing task.

In some embodiments, further comprising: and counting the irradiation processing tasks finished within a preset time range according to the starting time and the ending time of the irradiation processing tasks to generate a charging bill.

In some embodiments, the method further comprises: and after the irradiation processing task is finished, receiving an instruction for performing quality inspection on the irradiated product, wherein the storage identification of the irradiated product is modified after the quality inspection is qualified.

In some embodiments, the method further comprises: a query portal is provided that presents order information associated with the order number based on the entered order number.

There is also provided, in accordance with an embodiment of the present application, a computer-readable storage medium, referring to fig. 6, the computer-readable storage medium 60 having stored thereon computer instructions 61, the computer instructions 61 being executable by a computer for implementing the irradiation processing management method as described in any of the above embodiments.

It will be appreciated that the computer-readable storage medium 60 may include, but is not limited to, non-volatile or volatile storage media such as Random Access Memory (RAM), static RAM, dynamic RAM, Read Only Memory (ROM), programmable ROM, erasable programmable ROM, electrically erasable programmable ROM, flash memory, Secure Digital (SD) cards, and the like.

For the embodiments of the present application, it should also be noted that, in a case of no conflict, the embodiments of the present application and features of the embodiments may be combined with each other to obtain a new embodiment. The above description is only for the specific embodiments of the present application, but the scope of the present application is not limited thereto, and the scope of the present application shall be subject to the scope of the claims.

Claims (22)

1. An irradiation processing management system comprising:

the warehouse management module is used for establishing order information for products entering the warehouse, and the order information comprises an order number, and the name, the number and the storage identification of the product associated with the order number;

the processing management module is used for establishing an irradiation processing task, and the processing management module is specifically used for: receiving an input order number, displaying the name, the quantity and the storage identification of a product associated with the order number based on the order information, and receiving the name and the quantity of the product expected to be irradiated to establish an irradiation processing task;

and the storehouse management module is also used for modifying the storage identifier of the product after the irradiation processing task is finished.

2. The system of claim 1, wherein the storage identifier comprises a storage area of the product in the warehouse, the storage area comprises an unirradiated area and an irradiated area, and the warehouse management module is further configured to modify the storage area in the storage identifier of the irradiated product into an irradiated area.

3. The system of claim 2, wherein the storage identifier further comprises a storage location of the product in the storage area, and the warehouse management module is further configured to modify the storage identifier based on an actual storage location of the irradiation-completed product in the irradiated area.

4. The system of claim 2, wherein the warehouse management module is further configured to display the quantity of products in the unirradiated and irradiated zones in real time.

5. The system of claim 1, further comprising: a customer management module, configured to manage customer information and product information associated with the customer information, where the repository management module, when creating order information, is specifically configured to:

presenting product information associated with the customer information based on the entered customer information;

receiving an instruction of selecting the name, the number and the storage identifier of the product entering the storeroom in the product information so as to determine the name, the number and the storage identifier of the product entering the storeroom;

an order number is generated and associated with the name, quantity and storage identification of the product entering the warehouse.

6. The system of claim 1, further comprising:

and the process management module is used for determining the irradiation process parameters corresponding to each product and irradiating the products according to the irradiation process parameters when the irradiation processing task is executed.

7. The system of claim 1, wherein the process management module is further configured to record a start time, an end time, and operator information for the irradiation processing job.

8. The system of claim 7, further comprising:

and the financial management module is used for counting the irradiation processing tasks finished within a preset time range according to the starting time and the ending time of the irradiation processing tasks to generate a charging bill.

9. The system of claim 1, further comprising:

and the quality management module is used for receiving an instruction for performing quality inspection on the irradiated product, and the storehouse management module modifies the storage identifier of the irradiated product and performs the quality inspection after the quality inspection is qualified.

10. The system of claim 2, further comprising:

the information inquiry module is used for receiving an input order number and presenting order information associated with the order number.

11. The system of claim 1, further comprising:

and the personnel management module is used for managing and verifying the operation authority.

12. An irradiation processing management method comprising:

establishing order information for a product entering a warehouse, wherein the order information comprises an order number, and a name, a quantity and a storage identification of the product associated with the order number;

establishing an irradiation processing task, wherein the establishing of the irradiation processing task comprises the following steps: inputting an order number to acquire the name, the number and the storage identification of the product associated with the order number, and selecting the name and the number of the product expected to be irradiated to establish an irradiation processing task;

and after the irradiation processing task is completed, modifying the storage identifier of the irradiated product.

13. The method of claim 12, wherein the stored identity comprises a storage area of the product in the warehouse, the storage area comprising an unirradiated region and an irradiated region, and wherein modifying the stored identity of the irradiated product comprises modifying the storage area in the stored identity of the irradiated product to an irradiated region.

14. The method of claim 13, wherein the stored identity further comprises a storage location of the product in the storage area, and wherein modifying the stored identity of the irradiated product comprises modifying the stored identity based on an actual storage location of the irradiated product in the irradiated area.

15. The method of claim 13, further comprising displaying the quantity of product in the unirradiated and irradiated zones in real time.

16. The method of claim 12, wherein the establishing order information comprises:

presenting product information associated with the customer information based on the entered customer information;

receiving an instruction of selecting the name, the number and the storage identifier of the product entering the storeroom in the product information so as to determine the name, the number and the storage identifier of the product entering the storeroom;

an order number is generated and associated with the name, quantity and storage identification of the product entering the warehouse.

17. The method of claim 12, further comprising:

and determining irradiation process parameters corresponding to each product, and irradiating the products according to the irradiation process parameters when the irradiation processing task is executed.

18. The method of claim 12, further comprising:

and recording the starting time, the ending time and the operator information of the irradiation processing task.

19. The method of claim 18, further comprising:

and counting the irradiation processing tasks finished within a preset time range according to the starting time and the ending time of the irradiation processing tasks to generate a charging bill.

20. The method of claim 12, further comprising:

and after the irradiation processing task is finished, receiving an instruction for performing quality inspection on the irradiated product, wherein the storage identification of the irradiated product is modified after the quality inspection is qualified.

21. The method of claim 12, further comprising:

a query portal is provided that presents order information associated with the order number based on the entered order number.

22. A computer readable storage medium having stored thereon computer instructions which, when executed by a computer, implement the method of any one of claims 12-21.

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