阅读说明：本技术 电力系统仓库自助管理方法、系统、设备和存储介质 (Self-service management method, system, equipment and storage medium for power system warehouse ) 是由 余勇 黄澄 陈治林 曾少平 刘洪秀 唐文政 于 2021-07-07 设计创作，主要内容包括：本发明公开了一种电力系统仓库自助管理方法,包括：获取领料人员的领料身份认证信息,判断领料人员是否具有领料权限；若是,则向领料人员显示信息输入界面,获取领料人员的领料信息；获取领料信息中包括的目标物料的物料存储位置,向领料人员显示物料存储位置；扫描领料人员提供已领取的目标物料的领取物料码,获取当前领料时间,根据领取物料码、领料身份认证信息和当前领料时间生成物料提取信息,根据物料提取信息生成并打印物料提取单据；获取已领取的目标物料和物料提取单据的物料照片和领料人员输入的确认信息,根据物料照片和确认信息生成完毕信息,根据完毕信息修改当前电力系统仓库的已领取的目标物料对应的库存信息。本发明能提升管理的有效性。(The invention discloses a self-service management method for a power system warehouse, which comprises the following steps: acquiring material getting identity authentication information of a material getting person, and judging whether the material getting person has material getting permission; if so, displaying an information input interface to the material requirers to acquire the material requirers' material requirers information; acquiring a material storage position of a target material included in the material getting information, and displaying the material storage position to a material getting person; scanning a material receiving code of a received target material provided by a material receiving person, acquiring current material receiving time, generating material extraction information according to the material receiving code, the material receiving identity authentication information and the current material receiving time, and generating and printing a material extraction document according to the material extraction information; the method comprises the steps of obtaining a material photo of a received target material and a material extraction document and confirmation information input by a material collector, generating finishing information according to the material photo and the confirmation information, and modifying inventory information corresponding to the received target material of a current power system warehouse according to the finishing information. The invention can improve the management effectiveness.)

1. A self-service management method for a power system warehouse is characterized by comprising the following steps:

acquiring material receiving identity authentication information of material receiving personnel, and judging whether the material receiving personnel has material receiving permission or not according to the material receiving identity authentication information;

if the material-picking personnel has the material-picking authority, displaying an information input interface to the material-picking personnel to acquire material-picking information of the material-picking personnel;

acquiring a material storage position of a target material included in the material getting information, and displaying the material storage position to the material getting personnel;

scanning a material receiving code of the target material provided by the material receiving personnel, acquiring current material receiving time, generating material extraction information according to the material receiving code, the material receiving identity authentication information and the current material receiving time, and generating and printing a material extraction receipt according to the material extraction information;

and acquiring the received target material, the material photo of the material extraction document and confirmation information input by the material taking personnel, generating finishing information according to the material photo and the confirmation information, and modifying inventory information corresponding to the received target material of the current power system warehouse according to the finishing information.

2. The self-service management method for the power system warehouse as claimed in claim 1, wherein the step of obtaining the material getting information of the material getting personnel is followed by:

acquiring the quantity to be received of the target material according to the material receiving information, acquiring inventory information corresponding to the target material, and judging whether the residual materials in the current power system warehouse meet the quantity to be received or not according to the inventory information;

and if the residual materials in the current power system warehouse cannot meet the quantity to be received, acquiring the warehousing quantity of the target materials in the associated power system warehouse of the current power system warehouse, sending application information to the associated power system warehouse according to the warehousing quantity, and displaying the application information to the material receiving personnel.

3. The power system warehouse self-service management method according to claim 1, further comprising:

checking inventory information of each receivable material of the current power system warehouse according to a preset period, acquiring the current inventory quantity of each receivable material, judging whether the current inventory quantity meets a preset requirement, and if the current inventory quantity does not meet the preset requirement, sending inventory tension prompt information to a manager.

4. The self-service management method for the power system warehouse as claimed in claim 3, wherein before the step of determining whether the current inventory quantity meets preset requirements, the method comprises:

and acquiring construction information corresponding to the current power system warehouse, and setting the preset requirement according to the construction information.

5. The power system warehouse self-service management method according to claim 1, further comprising:

acquiring management identity authentication information of a manager;

acquiring warehousing material information of materials to be warehoused, which is input by the manager, acquiring warehousing material codes and shelf codes according to the warehousing material information, and binding the warehousing material codes and the shelf codes;

acquiring current warehousing time, generating material warehousing information according to the current warehousing time, the warehousing material codes, the management identity authentication information and the shelf codes, and generating and printing material warehousing documents according to the material warehousing information;

and modifying the inventory information corresponding to the materials to be warehoused of the current power system warehouse according to the material warehousing documents.

6. The power system warehouse self-service management method according to claim 5, further comprising:

and sending the modified inventory information to a management platform so that a plurality of associated power system warehouses connected with the management platform can acquire the inventory information.

7. The power system warehouse self-service management method according to claim 5, further comprising:

and acquiring query information input by the manager, and displaying material extraction information and/or material warehousing information corresponding to the query materials in the query information.

8. A self-service management system of power system warehouse, characterized by includes:

the acquisition module is used for acquiring the material getting identity authentication information of the material getting personnel and judging whether the material getting personnel has the material getting permission or not according to the material getting identity authentication information;

the display module is used for displaying an information input interface to the material requisitioner to acquire the material requisitioner if the material requisitioner has the material requisitioner;

the position module is used for acquiring a material storage position corresponding to the material getting information and displaying the material storage position to the material getting personnel;

the scanning module is used for scanning a material receiving code of a received target material provided by the material receiving personnel, acquiring current material receiving time, generating material extraction information according to the material receiving code, the material receiving identity authentication information and the current material receiving time, and generating and printing a material extraction receipt according to the material extraction information;

and the modification module is used for acquiring the received target material, the material photo of the extracted receipt and confirmation information input by the material taking personnel, generating finishing information according to the material photo and the confirmation information, and modifying the inventory information corresponding to the received target material of the current power system warehouse according to the finishing information.

9. An electric power system warehouse self-service management device, comprising: a processor coupled to the memory and a memory having a computer program stored therein, the processor executing the computer program to implement the method of any of claims 1-7.

10. A storage medium, characterized in that a computer program is stored, which computer program is executable by a processor to implement the method according to any of claims 1-7.

Technical Field

The invention relates to the technical field of warehouse management, in particular to a self-service management method, a self-service management system, self-service management equipment and a self-service management storage medium for a power system warehouse.

Background

In the engineering construction process of the electric power system, a large amount of first-supply materials (computer hosts, protection devices, network cables, video monitoring materials and the like) and second-supply materials (copper bars, yellow-green ground wires, hardware fittings) need to be brought into the warehouse management process of the electric power system, and related information such as different models, quantities, warehouse entry, warehouse exit, surplus and the like needs to be recorded. Conventional power system warehouse management is a non-automated, paper file-based system to record and track incoming and outgoing goods. The majority of the shelving process is to see where the vacant places are piled, materials are required to be found through manual memory in the follow-up process, the mode is long in time consumption and very dependent on the experience of warehouse managers, and only the managers clearly know the placement position, the quantity and the like of goods, so that once old workers leave or leave, the power system warehouse is easy to get in a bad situation.

Disclosure of Invention

In view of the above, it is necessary to provide a library self-service management method, system, device, and storage medium for solving the above problems.

A self-service management method for a power system warehouse comprises the following steps: acquiring material receiving identity authentication information of material receiving personnel, and judging whether the material receiving personnel has material receiving permission or not according to the material receiving identity authentication information; if the material-picking personnel has the material-picking authority, displaying an information input interface to the material-picking personnel to acquire material-picking information of the material-picking personnel; acquiring a material storage position of a target material included in the material getting information, and displaying the material storage position to the material getting personnel; scanning a material receiving code of the target material provided by the material receiving personnel, acquiring current material receiving time, generating material extraction information according to the material receiving code, the material receiving identity authentication information and the current material receiving time, and generating and printing a material extraction receipt according to the material extraction information; and acquiring the received target material, the material photo of the material extraction document and confirmation information input by the material taking personnel, generating finishing information according to the material photo and the confirmation information, and modifying inventory information corresponding to the received target material of the current power system warehouse according to the finishing information.

A power system warehouse self-service management system, comprising: the acquisition module is used for acquiring the material getting identity authentication information of the material getting personnel and judging whether the material getting personnel has the material getting permission or not according to the material getting identity authentication information; the display module is used for displaying an information input interface to the material requisitioner to acquire the material requisitioner if the material requisitioner has the material requisitioner; the position module is used for acquiring a material storage position corresponding to the material getting information and displaying the material storage position to the material getting personnel; the scanning module is used for scanning a material receiving code of a received target material provided by the material receiving personnel, acquiring current material receiving time, generating material extraction information according to the material receiving code, the material receiving identity authentication information and the current material receiving time, and generating and printing a material extraction receipt according to the material extraction information; and the modification module is used for acquiring the received target material, the material photo of the extracted receipt and confirmation information input by the material taking personnel, generating finishing information according to the material photo and the confirmation information, and modifying the inventory information corresponding to the received target material of the current power system warehouse according to the finishing information.

An electrical power system warehouse self-service management device comprising: a processor coupled to the memory and a memory having a computer program stored therein, the processor executing the computer program to implement the method as described above.

A storage medium storing a computer program executable by a processor to implement a method as described above.

The embodiment of the invention has the following beneficial effects:

whether the material picking personnel have the material picking authority or not is judged according to the material picking identity authentication information, the safety of warehouse management of the power system can be improved, the material picking information of the material picking personnel is obtained, the efficiency of the material picking personnel for obtaining materials can be effectively improved by obtaining the material storage position corresponding to the material picking information, the current material picking time is obtained, material extraction information is generated according to the material picking code, the material picking identity authentication information and the current material picking time, material extraction receipts are generated and printed according to the material extraction information, the circulation information of the materials can be accurately recorded, follow-up tracking and inventory are facilitated, and the effectiveness of management is improved.

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, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Wherein:

fig. 1 is a schematic flow chart of a first embodiment of a self-service management method for a power system warehouse provided by the invention;

FIG. 2 is a schematic structural diagram of a self-service management device of a power system warehouse provided by the invention;

fig. 3 is a schematic flow chart of a second embodiment of the self-service management method for the warehouse of the power system provided by the invention;

fig. 4 is a schematic flow chart of a power system warehouse self-service management method according to a third embodiment of the present invention

Fig. 5 is a schematic structural diagram of an embodiment of a self-service management system for a warehouse of an electrical power system provided by the present invention;

fig. 6 is a schematic structural diagram of an embodiment of a self-service management device for a power system warehouse provided by the present invention;

fig. 7 is a schematic structural diagram of an embodiment of a storage medium provided in the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a 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.

Referring to fig. 1, fig. 1 is a schematic flow chart of a self-service management method for a warehouse of an electrical power system according to a first embodiment of the present invention. The self-service management method of the power system warehouse provided by the invention comprises the following steps:

s101: and acquiring the material getting identity authentication information of the material getting personnel, and judging whether the material getting personnel has the material getting permission or not according to the material getting identity authentication information. If yes, go to step S102.

In a specific implementation scenario, the construction process of the power system involves management of multiple departments and multiple materials, so that management and supervision of material receiving personnel are required, and material management mistakes and omissions are avoided. The method includes the steps of obtaining identity authentication information of a material requisition person, for example, obtaining a face image of the material requisition person through a camera, and carrying out face recognition on the material requisition person so as to obtain the identity authentication information of the material requisition person. The method can also be used for acquiring the identification documents of the material taking personnel, such as identification cards, work cards, passports and the like, and communicating with the chip included in the identification documents to acquire the identification authentication information. And biological identification information such as voiceprints and fingerprints of the material receiving personnel can be acquired, and identity authentication information can be acquired according to the biological identification information.

In order to standardize management and facilitate subsequent tracking query, designated workers serve as designated material receiving personnel, and whether the material receiving personnel are the designated material receiving personnel or not is judged according to the acquired identity authentication information, namely whether the material receiving personnel have material receiving permission or not. In other implementation scenarios, a personnel management system may be set, and according to actual requirements, the personnel can open or close the material getting permission, and then query whether the personnel has the material getting permission to open after obtaining the identity authentication information of the personnel.

Referring to fig. 2, fig. 2 is a schematic structural diagram of a self-service management device for a warehouse of an electric power system provided by the present invention, as shown in fig. 2, the self-service management device 40 for a warehouse of an electric power system includes a main terminal 41 and a mobile terminal 42, and the main terminal 41 and the mobile terminal 42 are in communication connection in advance through a wired or wireless method. The mobile terminal 42 may be a smart terminal such as a mobile phone or a tablet computer. The body terminal 41 includes a camera 411, an input keypad 412, a card reader 413, a label printer 414, a document printer 415, a scanner 416, and a display 417.

The main body terminal 41 can be arranged at an entrance of the electric power system warehouse or close to the entrance, when the material picking personnel enter the electric power system warehouse, the main body terminal 41 acquires the material picking identity authentication information of the material picking personnel through the camera 411, or acquires the material picking identity authentication information of the material picking personnel through the card reader 413, and judges whether the material picking personnel have the material picking authority or not through the material picking identity authentication information in the networking inquiry personnel management system.

S102: and displaying an information input interface to the material requirers to acquire the material requirers' material requirers information.

In a specific implementation scenario, if the material requisitioner has the material requisitioner authority, an information input interface is displayed to the material requisitioner so that the material requisitioner can input material requisitioner information, where the material requisitioner includes at least one of a name, a model, a production lot number, a brand, and a quantity of a material that the material requisitioner needs to obtain. The material requisition information can be input by a material requisition person, or can be dictated by the material requisition person and obtained by voice recognition.

In this implementation scenario, the information input interface may be displayed to the material taker through the display 417, the material taker may input the material information through a touchable function of the display 417, or the material information may be input through the input keyboard 412. Or when the material requisition person has the material requisition right, providing the mobile terminal 42 for the material requisition person, displaying an information input interface on the mobile terminal 42, and inputting the material requisition information by the material requisition person through the mobile terminal 42.

In other implementation scenes, the material-receiving personnel do not have the material-receiving permission, the material-receiving personnel cannot enter the electric power system warehouse, if the material-receiving personnel forcibly enter the electric power system warehouse, the alarm operation is executed, alarm information is sent to the manager of the electric power system warehouse, and the alarm information comprises the identity authentication information of the material-receiving personnel. Furthermore, shooting and evidence obtaining can be carried out through a camera.

S103: and acquiring a material storage position corresponding to the material getting information, and displaying the material storage position to a material getting person.

In a specific implementation scenario, according to the acquired material getting information, the storage positions of the materials that need to be taken by the material getting personnel, such as shelf numbers, shelf layer numbers and the like, are acquired, and for an electric power system warehouse with a large area, a block area for storing the materials can be given out, and the storage positions of the materials are displayed for the material getting personnel. Further, a navigation route from the current location of the material picker (which may default to a power system warehouse entry location) to the material storage location may be planned. For example, the material storage location may be displayed on the display screen 417 to the panelist, or the material storage location or the navigation route may be displayed to the panelist through the mobile terminal 22.

S104: the method comprises the steps that a material receiving person is scanned to provide a received material receiving code of a received target material, current material receiving time is obtained, material extraction information is generated according to the received material receiving code, the received material identity authentication information and the current material receiving time, and a material extraction bill is generated and printed according to the material extraction information.

In a specific implementation scenario, a material getting person goes to a material storage location to obtain a material to be picked, and provides a picked material code of a picked target material. And taking the time of the material receiving codes of the received target materials provided by the material receiving personnel as the current material receiving time, generating material extraction information according to the material receiving codes, the material receiving identity authentication information and the current material receiving time, and generating and printing a material extraction document according to the material extraction information. The material receiving code is a bar code or a two-dimensional code which is pasted to the material when the material is put into the warehouse, the material receiving code is bound with warehousing information when the material is put into the warehouse, and the warehousing information comprises at least one item of name, model, production lot number, warehousing time and warehousing batch.

For example, the material taking person goes to the material storage location with the mobile terminal 42 to obtain the material to be picked up, and the material taking person uses the mobile terminal 42 to scan and obtain the picked-up material code of the picked-up target material. Or after the material taking personnel finishes taking all the taken target materials, the material taking personnel scans and obtains the taken material codes of the taken target materials through the scanner 416. The material extraction document is printed by the document printer 415 after the material extraction document is generated. Further, the material extraction document is transmitted to the electric power system warehouse manager through a network or a physical object, and after signature confirmation (for example, an electronic signature or a handwritten signature) of the electric power system warehouse manager is obtained, the material extraction document with the signature confirmation is printed through the document printer 415.

S105: the method comprises the steps of obtaining a material photo of a received target material and a material extraction document and confirmation information input by a material collector, generating finishing information according to the material photo and the confirmation information, and modifying inventory information corresponding to the received target material of a current power system warehouse according to the finishing information.

In a specific implementation scene, a material photo of a received target material and a material extraction document and confirmation information input by a material collector are obtained, finishing information is generated according to the material photo and the confirmation information, and inventory information corresponding to the received target material of a current power system warehouse is modified according to the finishing information.

Specifically, the material taking person may take a picture of the received target material and the pickup document through the mobile terminal 42 or the camera 411, upload the picture after confirmation, modify the inventory information corresponding to the received target material according to the material pickup document after uploading is successful, for example, the original inventory of 5 pieces of a certain material is stored, and modify the inventory information into 4 pieces after 1 piece is received. When the upload is complete, the claimant may be prompted to return the mobile terminal 22, which may ensure that the mobile terminal 42 may be successfully returned without being taken away since the claimant has provided the claim identity authentication information.

In a specific implementation scenario, a material taking person a provides material taking identity authentication information through face recognition, determines that the person a has material taking authority according to the material taking identity authentication information, displays an information input interface to the person a, and inputs material taking information on the information input interface, wherein the material taking information comprises information such as parameters of a material B to be taken. And acquiring a material storage position of the material B, and displaying the material storage position to the material A. After the A obtains the material B from the material storage position, a material receiving logistics code of the taken material B is provided, current material receiving time is obtained, material extraction information is generated according to the material receiving code, the material receiving identity authentication information and the current material receiving time, material extraction documents are generated and printed according to the material extraction information, the A takes pictures of the material B and the material extraction documents, confirms and uploads the pictures, finished information is generated according to the material pictures and the finished information, inventory information corresponding to the material B of the current power system warehouse is modified according to the finished information, for example, 5 pieces of the original inventory of the material B are taken away, and then 1 piece of the inventory information of the material B is modified into 4 pieces.

According to the description, in the embodiment, whether the material getting personnel have the material getting permission or not is judged according to the material getting identity authentication information, the safety of warehouse management of the electric power system can be improved, the material getting information of the material getting personnel is obtained, the efficiency of the material getting personnel for getting materials can be effectively improved by obtaining the material storage position corresponding to the material getting information, the current material getting time is obtained, the material extraction information is generated according to the material getting code, the material getting identity authentication information and the current material getting time, the material extraction document is generated and printed according to the material extraction information, the circulation information of the materials can be accurately recorded, follow-up tracking and inventory are facilitated, and the effectiveness of management is improved.

Referring to fig. 3, fig. 3 is a schematic flow chart of a self-service management method for a warehouse of an electrical power system according to a second embodiment of the present invention. The self-service management method of the power system warehouse provided by the invention comprises the following steps:

s201: and acquiring the material getting identity authentication information of the material getting personnel, and judging whether the material getting personnel has the material getting permission or not according to the material getting identity authentication information. If yes, go to step S202.

S202: and displaying an information input interface to the material requirers to acquire the material requirers' material requirers information.

In a specific implementation scenario, steps S201 to S202 are substantially the same as steps S101 to S102 of the first embodiment of the self-service management method for a power system warehouse provided by the present invention, and are not described herein again.

S203: and acquiring the quantity to be received of the target material according to the material receiving information, acquiring inventory information corresponding to the target material, and judging whether the residual materials in the current power system warehouse meet the quantity to be received or not according to the inventory information. If not, go to step S204.

In a specific implementation scenario, the material receiving information includes the quantity to be received of the target material, the inventory information corresponding to the target material is obtained, the inventory information includes the quantity to be received, and whether the remaining material in the current power system warehouse meets the quantity to be received or not is judged according to the inventory information. For example, if the current stock quantity of the material B is 3 and the waiting quantity of the material B in the material fetching information is 4, the remaining material cannot satisfy the waiting quantity.

S204: the method comprises the steps of obtaining the storage quantity of target materials of a related power system warehouse of the current power system warehouse, sending application information to the related power system warehouse according to the storage quantity, and displaying the application information to a material receiving person.

In a specific implementation scenario, the warehousing information of the multiple power system warehouses is correlated and shared according to conditions such as physical distance, branch management units, affiliated jurisdictions, traffic cost and the like, so that resource sharing of the multiple power system warehouses is achieved, and if the remaining materials cannot meet the quantity to be retrieved, the warehousing quantity of the target materials of the power system warehouse correlated with the current power system warehouse is obtained. For example, the power system warehouse C, D, E is associated with each other, and when the current inventory quantity of the material B in the power system warehouse C is 3, and the waiting quantity of the material B in the material receiving information is 4, the warehousing quantities of the material B in the power system warehouse D and the power system warehouse E are obtained, for example, the warehousing quantity in the power system warehouse D is 5, and the warehousing quantity in the power system warehouse E is 4, one of the power system warehouses D and E is selected to send the application information, and the application information is displayed to the material receiving person, so as to notify the material receiving person to extract the target material from the associated power system warehouse.

When at least one of the associated power system warehouses is selected as the target power system warehouse to send the application information, the selection can be made in consideration of multiple factors such as time efficiency, cost, distance and the like, and the selection can also be made according to the warehousing number, for example, the warehousing number in the power system warehouse D is more, so the power system warehouse D is selected.

Further, if the storage quantity in the associated power system warehouse can not meet the requirement, the difference value between the residual material and the material to be received is obtained, and the application information is sent to the associated power system warehouse according to the difference value. Further, if the sum of the warehousing quantities in all the associated power system warehouses cannot meet the requirement, warning information is sent to managers of the current power system warehouse and the associated power system warehouse to remind that the inventory of the target material is too low, and the project progress is seriously influenced.

In other implementation scenarios, in order to avoid the phenomenon of insufficient inventory, inventory information of each receivable material in the current power system warehouse is checked according to a preset period. And setting a preset requirement aiming at the characteristic of each material which can be received, for example, acquiring construction information corresponding to the current power system warehouse, and setting the preset requirement according to the construction information. If the material capable of being drawn belongs to the easily-consumed material, the corresponding quantity of the preset requirement is larger, and if the material capable of being drawn belongs to the durable material, the corresponding quantity of the preset requirement is smaller. Or the acceptable material is difficult to store (e.g., volatile, perishable) and the predetermined requirement is a small amount. Or the corresponding quantity of the preset requirements is smaller when the size of the material to be led is larger. And judging whether the current inventory quantity meets a preset requirement, and if the current inventory quantity does not meet the preset requirement, sending inventory tension prompt information to a manager.

And further, acquiring construction information corresponding to the current power system warehouse, and setting preset requirements according to the construction information. For example, if the demand of the material B in the construction information is large, the number corresponding to the preset requirement is large. Or the loss of the material B in the construction information is high, the corresponding quantity of the preset requirements is large.

In other implementation scenarios, if the remaining materials can satisfy the waiting quantity, the steps S103 to S105 in the first embodiment of the self-service management method for the power system warehouse provided by the present invention are executed.

According to the above description, in this embodiment, when the remaining materials in the current power system warehouse cannot satisfy the quantity to be received, the warehousing quantity of the target materials in the associated power system warehouse of the current power system warehouse is acquired, the application information is sent to the associated power system warehouse according to the warehousing quantity, and the application information is displayed to the material receiving personnel, so that unified allocation and management of the storage of the multiple power system warehouses can be effectively realized, and the success rate and the efficiency of material receiving are effectively improved.

Referring to fig. 4 and fig. 2 in combination, fig. 4 is a schematic flow chart of a power system warehouse self-service management method according to a third embodiment of the present invention. The self-service management method of the power system warehouse provided by the invention comprises the following steps:

s301: and acquiring management identity authentication information of a manager.

In a specific implementation scenario, a manager needs to store the received material to be warehoused in the power system warehouse. The step of obtaining the identity authentication information of the manager is basically the same as the method of obtaining the material receiving identity authentication information of the material receiving person in step S101 of the first embodiment of the self-service management method for an electric power system warehouse provided by the present invention, and details are not repeated here.

S302: the method comprises the steps of obtaining warehousing material information of materials to be warehoused, which is input by a manager, obtaining warehousing material codes and shelf codes according to the warehousing material information, and binding the warehousing material codes and the shelf codes.

In a specific implementation scenario, the warehousing material information of the material to be warehoused, which is input by the administrator, is obtained, for example, the image of the material to be warehoused may be recognized by the camera 411 of the main body terminal 41, so as to obtain the warehousing material information, or the administrator may input the warehousing material information by the input keyboard 412 or the display screen 417. In other implementation scenarios, the manager may also input the warehousing material information through the mobile terminal 42.

And acquiring warehousing material codes and shelf codes according to the warehousing material information, for example, acquiring warehousing materials to be warehoused as material B, warehousing material codes XXXX and shelf codes YYY of the material B according to the warehousing material information, and printing the warehousing material codes XXXX by a label printer 414, so that warehouse managers of the power system can paste the warehousing material codes on the materials to be warehoused. The shelf code is used for identifying the shelf for placing the material to be warehoused. The electric power system warehouse management personnel need to place the materials to be put in storage on the corresponding goods shelves according to the goods shelf codes. Therefore, when the subsequent material-taking personnel take materials, the material-taking information of the material-taking personnel is acquired, the storage position (shelf position) of the target material can be found according to the material-taking information, and the warehousing material code is used as the material-taking code of the target material during material taking, so that the material extraction information is acquired.

S303: and acquiring the current warehousing time, generating material warehousing information according to the current warehousing time, the warehousing material codes, the management identity authentication information and the shelf codes, and generating and printing material warehousing documents according to the material warehousing information.

In a specific implementation scene, the current warehousing time is obtained, the material warehousing information is generated according to the current warehousing time, the warehousing material codes, the management identity authentication information and the shelf codes, and the material warehousing documents are generated and printed according to the material warehousing information. Similar to the principle of generating and printing the material extraction document in step S104 in the first embodiment of the self-service management method for the power system warehouse provided by the invention, details are not repeated here. The material in-store document is printed by the document printer 415 after the material in-store document is generated. Further, the material warehousing documents are transmitted to the electric power system warehouse management personnel through a network or in real objects, and after signature confirmation (for example, electronic signature or handwritten signature) of the electric power system warehouse management personnel is obtained, the material warehousing documents with signature confirmation are printed through the document printer 415.

S304: and modifying the inventory information corresponding to the materials to be warehoused in the current power system warehouse according to the material warehousing documents.

In a specific implementation scenario, a material warehousing document is acquired, the materials to be warehoused and the number of the materials are acquired, a warehousing material code and a shelf code are further acquired, and inventory information corresponding to the materials to be warehoused in the current power system warehouse is correspondingly modified. For example, 5 pieces of material are originally stored, and after 1 piece is stored, the storage information is modified into 6 pieces.

Further, the modified inventory information is sent to the management platform, so that a plurality of associated power system warehouses connected with the management platform can acquire the inventory information. Therefore, when the materials in other associated power system warehouses are insufficient, the inventory information of the current power system warehouse can be known through the management platform so as to judge that the application information is not required to be sent, and the materials in the current power system warehouse can be retrieved.

Furthermore, query information input by a manager is obtained, and material extraction information and/or material warehousing information corresponding to the query materials in the query information are displayed, so that the manager can timely know whether the materials are successfully warehoused.

As can be seen from the above description, in this embodiment, warehousing material information of a material to be warehoused, which is input by a manager, is acquired, current warehousing time is acquired, material warehousing information is generated according to the current warehousing time, a warehousing material code, management identity authentication information, and a shelf code, and a material warehousing receipt is generated and printed according to the material warehousing information; the inventory information corresponding to the materials to be warehoused in the current power system warehouse is modified according to the material warehousing documents, so that the materials to be warehoused can be found smoothly after being warehoused, and the success rate and the efficiency of material receiving are improved.

Referring to fig. 5, fig. 5 is a schematic structural diagram of an embodiment of a self-service management system for a warehouse of an electrical power system according to the present invention. The self-service management system 10 of the power system warehouse comprises an acquisition module 11, a display module 12, a position module 13, a scanning module 14 and a modification module 15.

The obtaining module 11 is configured to obtain material obtaining identity authentication information of a material obtaining person, and determine whether the material obtaining person has material obtaining permission according to the material obtaining identity authentication information. The display module 12 is configured to display an information input interface to the material requirer if the material requirer has the material requirer permission, and acquire material requirer information of the material requirer. The position module 13 is used for acquiring a material storage position corresponding to the material getting information and displaying the material storage position to the material getting personnel. The scanning module 14 is configured to scan a material getting person to provide a material getting code of a target material that has been taken, obtain current material getting time, generate material extraction information according to the material getting code, the material getting identity authentication information, and the current material getting time, and generate and print a material extraction receipt according to the material extraction information. The modification module 15 is configured to obtain the received target material, the material photo of the extracted document, and the confirmation information input by the material collector, generate finish information according to the material photo and the confirmation information, and modify the inventory information corresponding to the received target material in the current power system warehouse according to the finish information.

The obtaining module 11 is further configured to obtain the quantity to be received of the target material according to the material receiving information, obtain inventory information corresponding to the target material, and determine whether the remaining materials in the current power system warehouse meet the quantity to be received according to the inventory information; and if the residual materials in the current power system warehouse cannot meet the quantity to be received, acquiring the warehousing quantity of the target materials in the associated power system warehouse of the current power system warehouse, sending application information to the associated power system warehouse according to the warehousing quantity, and displaying the application information to a material receiving person.

The obtaining module 11 is further configured to count inventory information of each receivable material in the current power system warehouse according to a preset period, obtain a current inventory quantity of each receivable material, determine whether the current inventory quantity meets a preset requirement, and send an inventory shortage prompt message to a manager if the current inventory quantity does not meet the preset requirement.

The obtaining module 11 is further configured to obtain construction information corresponding to the current power system warehouse, and set a preset requirement according to the construction information.

The obtaining module 11 is further configured to obtain management identity authentication information of a manager; acquiring warehousing material information of materials to be warehoused, which is input by a manager, acquiring warehousing material codes and shelf codes according to the warehousing material information, and binding the warehousing material codes and the shelf codes; acquiring current warehousing time, generating material warehousing information according to the current warehousing time, warehousing material codes, management identity authentication information and shelf codes, and generating and printing material warehousing documents according to the material warehousing information; and modifying the inventory information corresponding to the materials to be warehoused in the current power system warehouse according to the material warehousing documents.

The obtaining module 11 is further configured to send the modified inventory information to the management platform, so that a plurality of associated power system warehouses connected to the management platform can obtain the inventory information.

The obtaining module 11 is further configured to obtain query information input by a manager, and display material extraction information and/or material warehousing information corresponding to a query material included in the query information.

According to the above description, in this embodiment, the electric power system warehouse self-service management system judges whether the material getting personnel have the material getting permission according to the material getting identity authentication information, can improve the safety of electric power system warehouse management, acquire the material getting information of the material getting personnel, acquire the material storage position corresponding to the material getting information, and can effectively improve the efficiency of the material getting personnel for acquiring the material, acquire the current material getting time, generate the material extraction information according to the material getting code, the material getting identity authentication information and the current material getting time, generate and print the material extraction document according to the material extraction information, can accurately record the circulation information of the material, facilitate subsequent tracking and inventory, and improve the effectiveness of management.

Referring to fig. 6, fig. 6 is a schematic structural diagram of an embodiment of a self-service management device for a warehouse of an electrical power system provided in the present invention. The power system warehouse self-service management device 20 comprises a processor 21 and a memory 22. The processor 21 is coupled to a memory 22. The memory 22 has stored therein a computer program which is executed by the processor 21 when in operation to implement the method as shown in fig. 1, 3-4. The detailed methods can be referred to above and are not described herein.

According to the description, the electric power system warehouse self-service management equipment in the embodiment judges whether the material getting personnel have the material getting permission or not according to the material getting identity authentication information, can improve the safety of electric power system warehouse management, obtains the material getting information of the material getting personnel, obtains the material storage position corresponding to the material getting information, can effectively improve the efficiency of the material getting personnel for obtaining materials, obtains the current material getting time, generates the material extraction information according to the material getting code, the material getting identity authentication information and the current material getting time, generates and prints the material extraction document according to the material extraction information, can accurately record the circulation information of the materials, facilitates subsequent tracking and inventory, and improves the effectiveness of management.

Referring to fig. 7, fig. 7 is a schematic structural diagram of a storage medium according to an embodiment of the present invention. The storage medium 30 stores at least one computer program 31, and the computer program 31 is used for being executed by a processor to implement the methods shown in fig. 1 and fig. 3 to fig. 4, and the detailed methods can be referred to above and are not described herein again. In one embodiment, the computer readable storage medium 30 may be a memory chip in a terminal, a hard disk, or other readable and writable storage tool such as a removable hard disk, a flash disk, an optical disk, or the like, and may also be a server or the like.

According to the above description, the computer program in the storage medium in this embodiment may be used to judge whether the material getting person has the material getting permission according to the material getting identity authentication information, may improve the security of the warehouse management of the power system, acquire the material getting information of the material getting person, acquire the material storage location corresponding to the material getting information, may effectively improve the efficiency of the material getting person for obtaining the material, acquire the current material getting time, generate the material extraction information according to the material getting code, the material getting identity authentication information, and the current material getting time, generate and print the material extraction document according to the material extraction information, may accurately record the circulation information of the material, facilitate the subsequent tracking and inventory, and improve the effectiveness of the management.

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

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above examples only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present application. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.