CN114066328A - Power grid material allocation method and device - Google Patents

Abstract

The application relates to a power grid material allocation method, a device, a management and control system, a computer readable storage medium and a computer program product. The method comprises the following steps: receiving power grid material demand information sent by terminal equipment; obtaining the latest demand time in each demand time, obtaining each available power grid material library according to the power grid material demand place and the latest demand time, and determining a power grid material library deposit list; matching the power grid material list with each power grid material storage list to obtain a matched power grid material library, and marking corresponding material information in the matched power grid material library based on the demand information in the power grid material list; processing the marked material information to obtain warehouse-out power grid material information; and outputting a power grid material delivery instruction according to the delivery power grid material information, comparing the delivery power grid material information with a power grid material list, and outputting power grid material purchasing information. By adopting the method, the material allocation efficiency can be effectively improved.

Description

Power grid material allocation method and device

Technical Field

The application relates to the technical field of material allocation, in particular to a power grid material allocation method and device.

Background

The normal operation of the electric power system, the overhaul and maintenance of the electric power system can not be left, the overhaul and maintenance of the electric power system needs the support and coordination of a large amount of electric network materials, in order to realize the demand of people on the electric power system that the power grid system does not stop or has little power failure, the personnel of the electric power system must comprehensively, clearly and definitely master all the materials of the electric power network, thus, the electric power system can ensure that the electric power network faces the construction, maintenance or overhaul, the needed electric network materials can be positioned at the fastest speed, and the materials are dispatched and transported as fast as possible, thereby reducing the risk of the operation of the electric power network to the greatest extent and meeting the power consumption demand of people as far as possible.

However, the management and maintenance of the existing power grid material management system are all completed manually, and the problems of complex material allocation work and low working efficiency exist.

Disclosure of Invention

In view of the foregoing, it is necessary to provide a power grid material allocation method, device, management and control apparatus, management and control system, computer readable storage medium, and computer program product for solving the above technical problems.

In a first aspect, the application provides a power grid material allocation method. The method comprises the following steps:

receiving power grid material demand information sent by terminal equipment; the power grid material demand information comprises a power grid material list and a power grid material demand place; the power grid material list comprises demand information and demand time corresponding to the power grid demand materials;

obtaining the latest demand time in the demand times, obtaining each available power grid material library according to the power grid material demand place and the latest demand time, and determining a power grid material library inventory of the available power grid material library;

matching the power grid material list with each power grid material stock deposit list respectively, obtaining a matched power grid material stock under the condition that the matching result meets the matching condition and the current condition of meeting the condition of waiting for delivery, and marking out corresponding material information in the power grid material stock deposit list of the matched power grid material stock based on the demand information in the power grid material list;

processing the marked material information to obtain warehouse-out power grid material information; and outputting a power grid material delivery instruction according to the delivery power grid material information, comparing the delivery power grid material information with the power grid material list, and outputting power grid material purchasing information if the comparison result shows that any demand information in the power grid material list does not appear in the delivery power grid material information.

In one embodiment, the step of obtaining each available power grid material library according to the power grid material demand location and the latest demand time includes:

acquiring position information of a power grid material library;

processing the position information and the power grid material demand places to obtain the prediction time for delivering the power grid materials in each power grid material library to the power grid material demand places;

and marking the power grid material library with the predicted time smaller than the latest required time as the available power grid material library.

In one embodiment, the matching condition includes that any power grid demand material in the power grid material list is contained in any power grid material stock list; the condition of waiting for delivery comprises that the predicted time of any available power grid material library is less than the time required by any power grid material.

In one embodiment, the delivery power grid material information is non-repeated material information in each power grid material stock list;

the step of processing the marked material information to obtain the warehouse-out power grid material information comprises the following steps:

under the condition that repeated material information exists in a plurality of power grid material storage lists, determining a matched power grid material storage corresponding to the power grid material storage list with the largest quantity of current material information as a reserved power grid material storage, and determining all matched power grid material storage except the reserved power grid material storage as residual power grid material storage;

and deleting the same material information in the power grid material storage list of the remaining power grid material storage and the power grid material storage list of the reserved power grid material storage until no repeated material information exists in each power grid material storage list.

In one embodiment, the step of determining the matching power grid material library corresponding to the power grid material library inventory with the largest amount of current material information as the reserved power grid material library includes:

according to the quantity of material information in the deposit list of each power grid material library, performing descending arrangement on each matched power grid material library to obtain a material library sequence;

and determining the matched power grid material library with the first arrangement sequence in the material library sequence as the reserved power grid material library.

In one embodiment, the method further comprises:

receiving feedback information sent by the terminal equipment; the feedback information comprises a name of a received material, the quantity of the received material, the purpose of the received material and a scene picture of the received material;

and comparing the feedback information with the ex-warehouse power grid material information and the power grid material purchasing information, if the comparison result is that the feedback information is completely matched with the ex-warehouse power grid material information and the power grid material purchasing information, outputting power grid material closed-loop information, and otherwise, outputting power grid material non-closed-loop information.

In one embodiment, the method further comprises:

and outputting corresponding replenishment information according to the delivery power grid material information and/or the power grid material purchasing information.

In a second aspect, the application further provides a power grid material allocation device. The device comprises:

the demand information receiving module is used for receiving power grid material demand information sent by the terminal equipment; the power grid material demand information comprises a power grid material list and a power grid material demand place; the power grid material list comprises demand information and demand time corresponding to the power grid demand materials;

the available power grid material library determining module is used for acquiring the latest demand time in the demand times, obtaining each available power grid material library according to the power grid material demand place and the latest demand time, and determining a power grid material library inventory of the available power grid material library;

the power grid material information marking module is used for respectively matching the power grid material list with each power grid material stock list, obtaining a matched power grid material library under the condition that the matching result meets the matching condition and the current condition of the matching condition is met, and marking corresponding material information in the power grid material stock list of the matched power grid material library based on the demand information in the power grid material list;

the warehouse-out instruction generating module is used for processing the marked material information to obtain warehouse-out power grid material information and outputting a power grid material warehouse-out instruction according to the warehouse-out power grid material information;

and the power grid material purchasing module is used for comparing the ex-warehouse power grid material information with the power grid material list, and outputting the power grid material purchasing information if the comparison result is that any demand information in the power grid material list does not appear in the ex-warehouse power grid material information.

In a third aspect, the application further provides a management and control device. The management and control device comprises a memory and a processor, wherein the memory stores a computer program, and the processor executes the computer program to realize the following steps:

receiving power grid material demand information sent by terminal equipment; the power grid material demand information comprises a power grid material list and a power grid material demand place; the power grid material list comprises demand information and demand time corresponding to the power grid demand materials;

obtaining the latest demand time in the demand times, obtaining each available power grid material library according to the power grid material demand place and the latest demand time, and determining a power grid material library inventory of the available power grid material library;

matching the power grid material list with each power grid material stock deposit list respectively, obtaining a matched power grid material stock under the condition that the matching result meets the matching condition and the current condition of meeting the condition of waiting for delivery, and marking out corresponding material information in the power grid material stock deposit list of the matched power grid material stock based on the demand information in the power grid material list;

processing the marked material information to obtain warehouse-out power grid material information; and outputting a power grid material delivery instruction according to the delivery power grid material information, comparing the delivery power grid material information with the power grid material list, and outputting power grid material purchasing information if the comparison result shows that any demand information in the power grid material list does not appear in the delivery power grid material information.

In a fourth aspect, the application further provides a power grid material management and control system. The system comprises a control device and each terminal device connected with the control device.

In a fifth aspect, the present application further provides a computer-readable storage medium. The computer-readable storage medium having stored thereon a computer program which, when executed by a processor, performs the steps of:

receiving power grid material demand information sent by terminal equipment; the power grid material demand information comprises a power grid material list and a power grid material demand place; the power grid material list comprises demand information and demand time corresponding to the power grid demand materials;

obtaining the latest demand time in the demand times, obtaining each available power grid material library according to the power grid material demand place and the latest demand time, and determining a power grid material library inventory of the available power grid material library;

matching the power grid material list with each power grid material stock deposit list respectively, obtaining a matched power grid material stock under the condition that the matching result meets the matching condition and the current condition of meeting the condition of waiting for delivery, and marking out corresponding material information in the power grid material stock deposit list of the matched power grid material stock based on the demand information in the power grid material list;

processing the marked material information to obtain warehouse-out power grid material information; and outputting a power grid material delivery instruction according to the delivery power grid material information, comparing the delivery power grid material information with the power grid material list, and outputting power grid material purchasing information if the comparison result shows that any demand information in the power grid material list does not appear in the delivery power grid material information.

In a sixth aspect, the present application further provides a computer program product. The computer program product comprising a computer program which when executed by a processor performs the steps of:

receiving power grid material demand information sent by terminal equipment; the power grid material demand information comprises a power grid material list and a power grid material demand place; the power grid material list comprises demand information and demand time corresponding to the power grid demand materials;

obtaining the latest demand time in the demand times, obtaining each available power grid material library according to the power grid material demand place and the latest demand time, and determining a power grid material library inventory of the available power grid material library;

matching the power grid material list with each power grid material stock deposit list respectively, obtaining a matched power grid material stock under the condition that the matching result meets the matching condition and the current condition of meeting the condition of waiting for delivery, and marking out corresponding material information in the power grid material stock deposit list of the matched power grid material stock based on the demand information in the power grid material list;

processing the marked material information to obtain warehouse-out power grid material information; and outputting a power grid material delivery instruction according to the delivery power grid material information, comparing the delivery power grid material information with the power grid material list, and outputting power grid material purchasing information if the comparison result shows that any demand information in the power grid material list does not appear in the delivery power grid material information.

According to the power grid material allocation method, the device, the management and control equipment, the management and control system, the computer readable storage medium and the computer program product, each available power grid material library and the corresponding power grid material library inventory are obtained according to the latest demand time obtained from the received power grid material demand information and the power grid material demand place in the power grid material demand information; then matching the power grid material list in the power grid material demand information with each power grid material stock list to obtain a matched power grid material library, and marking material information corresponding to the power grid material stock list of the matched power grid material library based on the demand information in the power grid material list; the marked material information is processed to obtain ex-warehouse power grid material information, a power grid material ex-warehouse instruction is output according to the ex-warehouse power grid material information, the ex-warehouse power grid material information is compared with a power grid material list, and power grid material purchasing information is output according to a comparison result; this application can accomplish electric wire netting material allotment work automatically, and can guarantee that the electric wire netting material is sent on time, effectively improves material allotment efficiency.

Drawings

FIG. 1 is a schematic flow chart illustrating a method for allocating materials for a power grid according to an embodiment;

FIG. 2 is a schematic flow chart illustrating steps for obtaining available power grid material pools according to power grid material demand locations and latest demand times in one embodiment;

FIG. 3 is a schematic flow chart illustrating a step of processing the marked material information to obtain warehouse-out power grid material information according to an embodiment;

fig. 4 is a schematic structural diagram of a power grid material allocation device in one embodiment.

Detailed Description

To facilitate an understanding of the present application, the present application will now be described more fully with reference to the accompanying drawings. Embodiments of the present application are set forth in the accompanying drawings. This application may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein in the description of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application.

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

In one embodiment, as shown in fig. 1, a method for allocating materials in a power grid is provided, where for example, the method is applied to allocating materials in a power system, the method may include the following steps:

step S110, receiving power grid material demand information sent by terminal equipment; the power grid material demand information comprises a power grid material list and a power grid material demand place; the power grid material list comprises demand information and demand time corresponding to the power grid demand materials;

specifically, when power grid materials are needed at any place in the power system, power grid material demand information sent by power system personnel through terminal equipment is received; in some examples, the terminal device may be a user terminal, and the user terminal includes a mobile phone, a tablet, and a computer; the power grid material demand information can comprise a power grid material list and power grid material demand places, wherein demand information and demand time corresponding to each type of power grid material demand are marked in the power grid material list.

Step S120, obtaining the latest required time in all required times, obtaining all available power grid material libraries according to the power grid material required places and the latest required time, and determining power grid material library inventory of the available power grid material libraries;

specifically, the latest demand time refers to the longest demand time corresponding to the material required by each power grid, and it can be understood that the coverage area of the power grid system is large, material banks are built in each place, however, some material banks are far away from the material demand place of the power grid, when the material in the material banks is delivered to the demand place, the latest demand time is exceeded, in order to ensure that the material can be delivered on time and reduce the risk of power grid operation, the available material banks need to be selected from the material banks, further, the available material banks of the power grid can be obtained according to the material demand place of the power grid and the latest demand time, and the stock lists of the material banks of the power grid corresponding to the available material banks of the power grid are determined.

In one embodiment, as shown in fig. 2, the step of obtaining each available power grid material library according to the power grid material demand location and the latest demand time may include:

step S210, acquiring position information of a power grid material library;

step S220, processing the position information and the power grid material demand places to obtain the prediction time for delivering the power grid materials in each power grid material library to the power grid material demand places;

and step S230, marking the power grid material library with the predicted time less than the latest required time as an available power grid material library.

Specifically, in order to obtain available power grid material libraries, position information of all power grid material libraries in the power system needs to be acquired, then the position information and power grid material demand places are processed to obtain predicted time for sending materials in each power grid material library to the power grid material demand places, then the predicted time is compared with latest demand time, and if the predicted time is less than the latest demand time, the power grid material library corresponding to the condition is marked as the available power grid material library.

Step S130, matching the power grid material list with each power grid material stock list, obtaining a matched power grid material stock under the condition that the matching result meets the matching condition and the current condition of meeting the condition of waiting for delivery, and marking corresponding material information in the power grid material stock list of the matched power grid material stock based on the demand information in the power grid material list;

specifically, the power grid material list is matched with the power grid material storage lists of the available power grid material libraries respectively, the matched power grid material libraries are obtained under the condition that the matching result meets the matching condition and the current condition of waiting for ex-warehouse is met, and further, material information corresponding to the requirement information is marked in the power grid material storage lists corresponding to the matched power grid material libraries based on the requirement information corresponding to the power grid requirement materials in the power grid material list.

In one embodiment, the matching condition comprises that any power grid demand material in a power grid material list is contained in any power grid material stock bill; the condition of waiting for delivery comprises that the prediction time of any available power grid material library is less than the demand time of any power grid demand material.

Specifically, in some examples, when any power grid material stock list of each available power grid material stock includes any power grid demand material in the power grid material list, the matching condition is considered to be satisfied; further, if the predicted time for delivering the materials in the available power grid material library corresponding to any power grid material library inventory to the power grid material demand place is less than the required time for requiring the materials by any power grid, the condition of waiting for delivery is considered to be met, so that the matched power grid material library is obtained under the condition that the matching result meets the matching condition and the condition of waiting for delivery is met currently, and as can be seen, the matched power grid material library is the available power grid material library which meets the matching condition and meets the condition of waiting for delivery currently.

Step S140, processing the marked material information to obtain warehouse-out power grid material information; and outputting a power grid material delivery instruction according to the delivery power grid material information, comparing the delivery power grid material information with the power grid material list, and outputting power grid material purchasing information if the comparison result shows that any demand information in the power grid material list does not appear in the delivery power grid material information.

Specifically, the material information marked in the step S130 is processed to obtain the material information of the ex-warehouse power grid; further, a power grid material delivery instruction can be output according to the delivery power grid material information, so that power grid material demand is delivered to a power grid material demand place; in addition, some materials in the power grid material list may not be inquired in the material storage list of the available power grid material library, so that the ex-warehouse power grid material information needs to be compared with the power grid material list, and if any required information in the power grid material list is not found in the ex-warehouse power grid material information, power grid material purchasing information is output to remind related personnel of purchasing materials in time.

In one embodiment, the delivery power grid material information is non-repeated material information in each power grid material storage list; as shown in fig. 3, the step of processing the marked material information to obtain the warehouse-out power grid material information includes:

step S310, under the condition that repeated material information exists in a plurality of power grid material storage lists, determining a matching power grid material storage corresponding to the power grid material storage list with the largest quantity of current material information as a reserved power grid material storage, and determining all matching power grid material storage except the reserved power grid material storage as residual power grid material storage;

specifically, when some power grid demand materials in the power grid material list exist in a plurality of matching power grid material libraries, the same material information is marked on the plurality of matching power grid material libraries, that is, the repeated material information exists in the power grid material library inventory corresponding to the plurality of matching power grid material libraries, and in order to avoid repeated allocation of the materials, all the material information marked on one matching power grid material library is reserved;

in some examples, how to reserve may be selected according to a scheme with the least number of transportation times, and further, a matching power grid material library corresponding to a power grid material library inventory with the largest amount of current material information may be determined as a reserved power grid material library, that is, all material information marked on the reserved power grid material library is reserved, and accordingly, all matching power grid material libraries except the reserved power grid material library are determined as remaining power grid material libraries.

In one embodiment, the step of determining the matching power grid material library corresponding to the power grid material library inventory with the largest amount of current material information as the reserved power grid material library may include:

according to the quantity of material information in the deposit list of each power grid material library, performing descending arrangement on each matched power grid material library to obtain a material library sequence;

and determining the matching power grid material library with the first arrangement sequence in the material library sequence as a reserved power grid material library.

Specifically, the quantity of the material information marked in the storage list of each power grid material library corresponding to each matching power grid material library can be respectively counted, and then the counted quantity of the material information is subjected to descending order arrangement, namely, each matching power grid material library is subjected to descending order arrangement, so that a material library sequence is obtained; further, the matching power grid material library with the first arrangement sequence in the material library sequence is determined as a reserved power grid material library.

And step S320, deleting the same material information in the power grid material storage list of the rest power grid material storage and the power grid material storage list of the reserved power grid material storage until no repeated material information exists in each power grid material storage list.

Specifically, since the delivery power grid material information is non-repeated material information in each power grid material storage list, the same material information in the power grid material storage list corresponding to each remaining power grid material storage and in the power grid material storage list corresponding to the reserved power grid material storage needs to be deleted until the repeated material information in the power grid material storage list corresponding to the reserved power grid material storage does not exist in the power grid material storage list corresponding to each remaining power grid material storage, and the delivery power grid material information is obtained.

In order to better explain the technical scheme of the step of processing the marked material information to obtain the warehouse-out power grid material information in the embodiment, the following description is given by combining a specific example:

for example, the materials on the power grid material list include material A, material B, material C, material D, material E and material F, the material information marked on each matching power grid material library is arranged in a descending order according to the quantity of the material information, the descending order is a first matching power grid material library, a second matching power grid material library, a third matching power grid material library and a fourth matching power grid material library, and the sequence of the obtained material libraries is shown in the following table:

matching power grid material library names	Annotated asset information
		First matching power grid material library	Material A, material B, material C, and material D
Second matching power grid material library	Materials A, B and C
		Third matching power grid material library	Materials C and D
Fourth matching power grid material library	Materials C and E

Determining a first matching power grid material library with the first arrangement sequence in the material library sequence as a reserved power grid material library, namely reserving all material information marked on the first matching power grid material library; correspondingly, the second matching power grid material library, the third matching power grid material library and the fourth matching power grid material library are confirmed as a residual power grid material library, further, material information which is identical to material information marked on the reserved power grid material library and is marked on the residual power grid material library is deleted, namely material information A, material information B and material information C marked on the second matching power grid material library are deleted, material information C and material information D marked on the third matching power grid material library are deleted, material information C marked on the fourth matching power grid material library is deleted, and the material information of the ex-warehouse power grid is obtained until no repeated material information exists in power grid material library lists of each matching power grid material library, and the following table shows the material information of the ex-warehouse power grid:

first matching power grid material library	Material A, material B, material C, and material D
		Fourth matching power grid material library	Materials E

And comparing the ex-warehouse power grid material information with the power grid material list to obtain that the ex-warehouse power grid material information does not contain the material F, so that corresponding power grid material purchasing information is output to remind related personnel of purchasing the material F in time.

If the material information marked on the remaining power grid material libraries is still repeated after the first descending order arrangement, the remaining power grid material libraries are arranged in descending order according to the quantity of the marked material information, and then the steps are repeated, namely all the material information marked on the first matching power grid material library in the second ordering order is reserved, and the parts of the other matching power grid material libraries, which are the same as the material information marked on the first matching power grid material library in the ordering order, are deleted until all the marked material information is not repeated.

According to the power grid material allocation method, each available power grid material library and the corresponding power grid material library deposit list are obtained according to the latest demand time and the power grid material demand place; then matching the power grid material list with each power grid material storage list to obtain a matched power grid material library, and marking material information on the matched power grid material library; the marked material information is processed to obtain ex-warehouse power grid material information, a power grid material ex-warehouse instruction is output according to the ex-warehouse power grid material information, the ex-warehouse power grid material information is compared with a power grid material list, and power grid material purchasing information is output according to a comparison result; the automation of the work of allocating the materials of the power grid can be realized, the allocation error rate is reduced, the materials of the power grid can be sent to a demand place on time, and the efficiency of allocating the materials is effectively improved.

In one embodiment, the method further comprises:

receiving feedback information sent by terminal equipment; the feedback information comprises the name of the received material, the quantity of the received material, the purpose of the received material and the picture of the received material site;

and comparing the feedback information with the ex-warehouse power grid material information and the power grid material purchasing information, outputting power grid material closed-loop information if the comparison result is that the feedback information is completely matched with the ex-warehouse power grid material information and the power grid material purchasing information, and otherwise, outputting power grid material non-closed-loop information.

Specifically, in order to realize the overall process control of the power grid materials, it is required to ensure that the materials delivered from the warehouse are used in a correct place, when the field workers receive the materials and use the materials, feedback information is required to be sent through terminal equipment, and the feedback information comprises the name of the received materials, the quantity of the received materials, the purpose of the received materials and the field pictures of the received materials; the terminal equipment can be an employee terminal;

after receiving the feedback information, comparing the feedback information with ex-warehouse power grid material information and power grid material purchasing information, and when the feedback information is completely matched with the ex-warehouse material and purchasing material, indicating that the material is used in a correct place, and outputting power grid material closed-loop information; otherwise, the problem of the materials in the transportation or use process is shown, the power grid material open-loop information is output, and special workers can be sent to investigate and follow up and process the problems in the power grid material allocation process in time.

This embodiment has realized the real-time management and control of goods and materials allotment overall process through comparing the goods and materials that on-the-spot staff received and goods and materials and purchase goods and materials out of storage, has improved the efficiency of goods and materials allotment.

In one embodiment, the method further comprises:

and outputting corresponding replenishment information according to the delivery power grid material information and/or power grid material purchasing information.

Specifically, after goods and materials in the goods and materials library are delivered from the warehouse, goods replenishment needs to be performed in time, first replenishment information is generated according to the delivery power grid goods and materials information, the first replenishment information is matching power grid goods and materials library and corresponding delivery goods and materials information in the delivery power grid goods and materials information, for example, in the foregoing specific example, the first replenishment information is: the first matching power grid material library needs to be supplemented with material A, material B, material C and material D, and the fourth matching power grid material library needs to be supplemented with material E;

in addition, it is indicated that the material needs to be purchased, corresponding material is absent in the material library close to the power grid material demand location, so that the material library needs to be replenished, further, second replenishment information is generated according to the power grid material purchase information, and the second replenishment information is the material library closest to the power grid material demand location and the material information for purchase, for example, in the foregoing specific example, in the case that the second matching power grid material library is the material library closest to the power grid material demand location, the second replenishment information is: the second matching grid supply repository requires a supplemental supply F.

According to the embodiment, corresponding replenishment information is output according to the delivery power grid material information and/or power grid material purchasing information, materials in the available power grid material library can be replenished in time, the material completeness of each available power grid material library is guaranteed, the materials can be delivered to a material demand place in time when the materials demand exists in the future, and therefore the material allocation efficiency is guaranteed.

It should be understood that, although the steps in the flowcharts related to the embodiments as described above are sequentially displayed as indicated by arrows, the steps are not necessarily performed sequentially as indicated by the arrows. The steps are not performed in the exact order shown and described, and may be performed in other orders, unless explicitly stated otherwise. Moreover, at least a part of the steps in the flowcharts related to the embodiments described above may include multiple steps or multiple stages, which are not necessarily performed at the same time, but may be performed at different times, and the execution order of the steps or stages is not necessarily sequential, but may be rotated or alternated with other steps or at least a part of the steps or stages in other steps.

Based on the same inventive concept, the embodiment of the application also provides a power grid material allocation device for realizing the power grid material allocation method. The implementation scheme for solving the problem provided by the device is similar to the implementation scheme recorded in the method, so that specific limitations in the following embodiment of the power grid material allocation device can be referred to the limitations on the power grid material allocation method in the above, and details are not described herein again.

In one embodiment, as shown in fig. 4, there is provided a power grid material allocation apparatus, including: demand information receiving module 410, available electric network material storehouse confirm module 420, electric network material information mark module 430, delivery instruction generation module 440 and electric network material purchase module 450, wherein:

the demand information receiving module 410 is used for receiving power grid material demand information sent by the terminal device; the power grid material demand information comprises a power grid material list and a power grid material demand place; the power grid material list comprises demand information and demand time corresponding to the power grid demand materials;

the available power grid material library determining module 420 is used for acquiring the latest required time in each required time, obtaining each available power grid material library according to the power grid material required place and the latest required time, and determining a power grid material library inventory of the available power grid material library;

the power grid material information labeling module 430 is used for matching the power grid material list with each power grid material stock list respectively, obtaining a matched power grid material stock under the condition that the matching result meets the matching condition and the current condition of waiting for delivery is met, and labeling corresponding material information in the power grid material stock list of the matched power grid material stock based on the demand information in the power grid material stock list;

the ex-warehouse instruction generating module 440 is configured to process the marked material information to obtain ex-warehouse power grid material information, and output a power grid material ex-warehouse instruction according to the ex-warehouse power grid material information;

and the power grid material purchasing module 450 is used for comparing the ex-warehouse power grid material information with the power grid material list, and outputting the power grid material purchasing information if the comparison result shows that any demand information in the power grid material list does not appear in the ex-warehouse power grid material information.

In one embodiment, the available grid materials library determination module 420 includes:

the prediction time determining unit is used for acquiring the position information of the power grid material library; processing the position information and the power grid material demand places to obtain the prediction time for transmitting the power grid materials in each power grid material library to the power grid material demand places;

and the available material base determining unit is used for marking the power grid material base with the predicted time less than the latest required time as an available power grid material base.

In one embodiment, the delivery power grid material information is non-repeated material information in each power grid material storage list; the outbound command generating module 440 is further configured to:

under the condition that repeated material information exists in a plurality of power grid material storage lists, determining a matching power grid material storage corresponding to the power grid material storage list with the largest quantity of current material information as a reserved power grid material storage, and determining all matching power grid material storage except the reserved power grid material storage as residual power grid material storage;

and deleting the same material information in the power grid material storage list of the rest power grid material storage and the power grid material storage list of the reserved power grid material storage until no repeated material information exists in each power grid material storage list.

In one embodiment, the outbound instruction generation module 440 is further configured to:

according to the quantity of material information in the deposit list of each power grid material library, performing descending arrangement on each matched power grid material library to obtain a material library sequence;

and determining the matching power grid material library with the first arrangement sequence in the material library sequence as a reserved power grid material library.

In one embodiment, the power grid material allocation device further includes:

the feedback information receiving module is used for receiving feedback information sent by the terminal equipment; the feedback information comprises the name of the received material, the quantity of the received material, the purpose of the received material and the picture of the received material site;

and the material comparison module is used for comparing the feedback information with the ex-warehouse power grid material information and the power grid material purchasing information, outputting power grid material closed-loop information if the comparison result is that the feedback information is completely matched with the ex-warehouse power grid material information and the power grid material purchasing information, and otherwise outputting power grid material non-closed-loop information.

In one embodiment, the power grid material allocation device further includes:

and the replenishment module is used for outputting corresponding replenishment information according to the delivery power grid material information and/or power grid material purchasing information.

All modules in the power grid material distribution device can be completely or partially realized through software, hardware and a combination thereof. The modules can be embedded in a hardware form or independent from a processor in the computer device, and can also be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.

In one embodiment, a management device is provided, which includes a memory and a processor, wherein the memory stores a computer program, and the processor implements the steps of the above method embodiments when executing the computer program.

In one embodiment, a power grid material management and control system is provided and comprises management and control equipment and terminal equipment connected with the management and control equipment.

In an embodiment, a computer-readable storage medium is provided, on which a computer program is stored which, when being executed by a processor, carries out the steps of the above-mentioned method embodiments.

In an embodiment, a computer program product is provided, comprising a computer program which, when being executed by a processor, carries out the steps of the above-mentioned method embodiments.

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 instructions of a computer program, which 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, database, or other medium used in the embodiments provided herein may include at least one of non-volatile and volatile memory. The nonvolatile Memory may include Read-Only Memory (ROM), magnetic tape, floppy disk, flash Memory, optical Memory, high-density embedded nonvolatile Memory, resistive Random Access Memory (ReRAM), Magnetic Random Access Memory (MRAM), Ferroelectric Random Access Memory (FRAM), Phase Change Memory (PCM), graphene Memory, and the like. Volatile Memory can include Random Access Memory (RAM), external cache Memory, and the like. By way of illustration and not limitation, RAM can take many forms, such as Static Random Access Memory (SRAM) or Dynamic Random Access Memory (DRAM), among others. The databases referred to in various embodiments provided herein may include at least one of relational and non-relational databases. The non-relational database may include, but is not limited to, a block chain based distributed database, and the like. The processors referred to in the embodiments provided herein may be general purpose processors, central processing units, graphics processors, digital signal processors, programmable logic devices, quantum computing based data processing logic devices, etc., without limitation.

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-mentioned embodiments 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 application shall be subject to the appended claims.

Claims (10)

1. A power grid material allocation method is characterized by comprising the following steps:

receiving power grid material demand information sent by terminal equipment; the power grid material demand information comprises a power grid material list and a power grid material demand place; the power grid material list comprises demand information and demand time corresponding to the power grid demand materials;

obtaining the latest demand time in the demand times, obtaining each available power grid material library according to the power grid material demand place and the latest demand time, and determining a power grid material library inventory of the available power grid material library;

matching the power grid material list with each power grid material stock deposit list respectively, obtaining a matched power grid material stock under the condition that the matching result meets the matching condition and the current condition of meeting the condition of waiting for delivery, and marking out corresponding material information in the power grid material stock deposit list of the matched power grid material stock based on the demand information in the power grid material list;

processing the marked material information to obtain warehouse-out power grid material information; and outputting a power grid material delivery instruction according to the delivery power grid material information, comparing the delivery power grid material information with the power grid material list, and outputting power grid material purchasing information if the comparison result shows that any demand information in the power grid material list does not appear in the delivery power grid material information.

2. The method of claim 1, wherein the step of deriving each available grid material library from the grid material demand location and the latest demand time comprises:

acquiring position information of a power grid material library;

processing the position information and the power grid material demand places to obtain the prediction time for delivering the power grid materials in each power grid material library to the power grid material demand places;

and marking the power grid material library with the predicted time smaller than the latest required time as the available power grid material library.

3. The method of claim 2, wherein the matching condition comprises any grid demand material in the grid material list being included in any of the grid material inventory lists; the condition of waiting for delivery comprises that the predicted time of any available power grid material library is less than the time required by any power grid material.

4. The method according to claim 1, wherein the delivery grid material information is non-repetitive material information in each of the grid material inventory lists;

the step of processing the marked material information to obtain the warehouse-out power grid material information comprises the following steps:

under the condition that repeated material information exists in a plurality of power grid material storage lists, determining a matched power grid material storage corresponding to the power grid material storage list with the largest quantity of current material information as a reserved power grid material storage, and determining all matched power grid material storage except the reserved power grid material storage as residual power grid material storage;

and deleting the same material information in the power grid material storage list of the remaining power grid material storage and the power grid material storage list of the reserved power grid material storage until no repeated material information exists in each power grid material storage list.

5. The method of claim 4, wherein the step of determining the matching power grid material library corresponding to the power grid material library inventory with the largest amount of current material information as the reserved power grid material library comprises:

according to the quantity of material information in the deposit list of each power grid material library, performing descending arrangement on each matched power grid material library to obtain a material library sequence;

and determining the matched power grid material library with the first arrangement sequence in the material library sequence as the reserved power grid material library.

6. The method according to any one of claims 1 to 5, further comprising:

receiving feedback information sent by the terminal equipment; the feedback information comprises a name of a received material, the quantity of the received material, the purpose of the received material and a scene picture of the received material;

and comparing the feedback information with the ex-warehouse power grid material information and the power grid material purchasing information, if the comparison result is that the feedback information is completely matched with the ex-warehouse power grid material information and the power grid material purchasing information, outputting power grid material closed-loop information, and otherwise, outputting power grid material non-closed-loop information.

7. The method according to any one of claims 1 to 5, further comprising:

and outputting corresponding replenishment information according to the delivery power grid material information and/or the power grid material purchasing information.

8. A power grid material allocation device, characterized in that, the device includes:

the demand information receiving module is used for receiving power grid material demand information sent by the terminal equipment; the power grid material demand information comprises a power grid material list and a power grid material demand place; the power grid material list comprises demand information and demand time corresponding to the power grid demand materials;

the available power grid material library determining module is used for acquiring the latest demand time in the demand times, obtaining each available power grid material library according to the power grid material demand place and the latest demand time, and determining a power grid material library inventory of the available power grid material library;

the power grid material information marking module is used for respectively matching the power grid material list with each power grid material stock list, obtaining a matched power grid material library under the condition that the matching result meets the matching condition and the current condition of the matching condition is met, and marking corresponding material information in the power grid material stock list of the matched power grid material library based on the demand information in the power grid material list;

the warehouse-out instruction generating module is used for processing the marked material information to obtain warehouse-out power grid material information and outputting a power grid material warehouse-out instruction according to the warehouse-out power grid material information;

and the power grid material purchasing module is used for comparing the ex-warehouse power grid material information with the power grid material list, and outputting the power grid material purchasing information if the comparison result is that any demand information in the power grid material list does not appear in the ex-warehouse power grid material information.

9. An administration device comprising a memory and a processor, the memory storing a computer program, characterized in that the processor realizes the steps of the method of any one of claims 1 to 7 when executing the computer program.

10. A power grid material management and control system comprising the management and control device as claimed in claim 9, and terminal devices connected to the management and control device.

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