CN116167699A - Equipment guarantee resource management method and system - Google Patents

Abstract

The invention discloses a method and a system for equipment guarantee resource management, comprising the following steps: the management terminal A sends part inquiry information A to an inventory management server; after the inventory management server receives the part inquiry information A, the inventory management server inquires the inventory quantity A of the part A in the inventory database based on the part number A; if the inventory quantity A of the part A is larger than the threshold value, updating the inventory quantity A of the part A based on the inventory data updating instruction A by an inventory management server to obtain an inventory quantity B of the part A; after the inventory management server obtains the inventory quantity B of the part A, marking the inventory quantity B of the part A as recoverable data by the inventory management server; after the inventory management server obtains the inventory quantity B of the parts a, an indication of the inventory sufficiency of the parts a is sent by the inventory management server to the management terminal a.

Description

Equipment guarantee resource management method and system

Technical Field

The invention relates to the technical field of equipment guarantee, in particular to an equipment guarantee resource management method and system.

Background

Equipment assurance resource management refers to managing the materials required by the equipment repair and maintenance process. The system generally provides the functions of inquiring the inventory quantity of the parts and requesting the parts on line, specifically, the inquiring of the inventory quantity of the parts refers to one or more management terminals inquiring the inventory management server about the inventory state of one or more parts, and the requesting of the parts on line refers to one or more management terminals actually ordering the parts from the inventory management server and carrying out the ex-warehouse operation on the corresponding parts according to the orders of the management terminals by the inventory management server.

During operation of existing systems, users often experience the following problems: when a user operates the management terminal to inquire the inventory quantity of the parts, the management terminal displays that the parts have more inventory; based on the display of the management terminal, the user places an order for the part (i.e. performs an operation of requesting the part online), but after the user places the order for the part, the order cannot be executed due to insufficient inventory of the part, and in the case of maintenance of the factory equipment, the occurrence of such a situation causes a subsequent series of operations, thereby reducing the maintenance efficiency of the factory equipment. This technical problem cannot be avoided by the existing systems due to certain inherent drawbacks of the existing systems.

Disclosure of Invention

In order to achieve the above object, the present invention provides an equipment security resource management method, which is characterized in that the method includes:

the method comprises the steps that a management terminal A sends part inquiry information A to an inventory management server, wherein the part inquiry information A comprises a part number A and an inventory data updating instruction A;

after the inventory management server receives the part inquiry information A, the inventory management server inquires the inventory quantity A of the part A in the inventory database based on the part number A, wherein the part A corresponds to the part number A;

if the inventory quantity A of the part A is larger than the threshold value, updating the inventory quantity A of the part A based on the inventory data updating instruction A by an inventory management server to obtain an inventory quantity B of the part A;

after the inventory management server obtains the inventory quantity B of the part A, marking the inventory quantity B of the part A as recoverable data by the inventory management server;

after the inventory management server obtains the inventory quantity B of the parts a, the inventory management server sends an indication of sufficient inventory of the parts a to the management terminal a, wherein the management terminal a can send a part extraction instruction to the inventory management server only after the management terminal a receives the indication of sufficient inventory of the parts a.

In a preferred embodiment, the method further comprises:

before the inventory management server receives the part extraction instruction, the inventory management server receives part inquiry information B sent by a management terminal B, wherein the part inquiry information B comprises a part number A and an inventory data updating instruction C;

after the inventory management server receives the part inquiry information B, inquiring the inventory quantity B of the part A in the inventory database based on the part number A by the inventory management server;

if the inventory quantity B of the parts A is smaller than the threshold value, an indication of insufficient inventory of the parts A is sent to the management terminal B by the inventory management server.

In a preferred embodiment, the method further comprises:

after the inventory management server sends an indication of insufficient inventory of the part A to the management terminal B, the inventory management server judges whether a part extraction instruction sent by the management terminal A is received or not;

if the inventory management server does not receive the part extraction instruction sent by the management terminal A within a predefined time, restoring the inventory quantity B of the part A to the inventory quantity A of the part A by the inventory management server;

after the management terminal B receives the indication of insufficient inventory of the part A, the management terminal B sends part inquiry information B again to an inventory management server, wherein the part inquiry information B comprises a part number A and an inventory data updating instruction C;

after the inventory management server restores the inventory quantity B of the parts a to the inventory quantity a of the parts a, the inventory management server again receives the retransmitted parts inquiry information B.

In a preferred embodiment, the method further comprises:

after the inventory management server receives the retransmitted part inquiry information B again, the inventory management server inquires the inventory number a of the part a in the inventory database based on the part number a;

if the inventory quantity A of the part A is larger than the threshold value, updating the inventory quantity A of the part A by an inventory management server based on the inventory data updating instruction C to obtain the inventory quantity C of the part A;

after the inventory management server obtains the inventory number C of the part A, marking the inventory number C of the part A as recoverable data by the inventory management server;

after the inventory management server obtains the inventory quantity C of the parts a, the inventory management server sends an indication that the inventory of the parts a is sufficient to the management terminal B, wherein the management terminal B can send a part extraction instruction to the inventory management server only after the management terminal B receives the indication that the inventory of the parts a is sufficient.

In a preferred embodiment, the method further comprises:

if the inventory management server receives the part extraction instruction A sent by the management terminal A within a predefined time, extracting a part number A, an inventory data updating instruction B and a part extraction instruction in the part extraction instruction A by the inventory management server;

updating, by the inventory management server, the inventory quantity B of the part a based on the inventory data update instruction B to obtain an inventory quantity D of the part a;

marking, by the inventory management server, the inventory quantity D of the part a as unrecoverable data;

the inventory management server retrieves part a in the warehouse based on the part extraction instructions.

In a preferred embodiment, the method further comprises:

after the inventory management server updates the inventory quantity B of the parts a to the inventory quantity D of the parts a, the inventory management server again receives the retransmitted part inquiry information B;

after the inventory management server receives the retransmitted part inquiry information B again, the inventory management server inquires the inventory number D of the parts a in the inventory database based on the part number a;

if the inventory quantity D of the part A is larger than the threshold value, updating the inventory quantity D of the part A by the inventory management server based on the inventory data updating instruction C to obtain an inventory quantity E of the part A;

after the inventory management server obtains the inventory quantity E of the part A, marking the inventory quantity E of the part A as recoverable data by the inventory management server;

after the inventory management server obtains the inventory quantity E of the parts a, the inventory management server sends an indication that the inventory of the parts a is sufficient to the management terminal B, wherein the management terminal B can send a part extraction instruction to the inventory management server only after the management terminal B receives the indication that the inventory of the parts a is sufficient.

The invention provides an equipment guarantee resource management system, which is characterized in that the system is configured to execute the following operations:

the method comprises the steps that a management terminal A sends part inquiry information A to an inventory management server, wherein the part inquiry information A comprises a part number A and an inventory data updating instruction A;

after the inventory management server receives the part inquiry information A, the inventory management server inquires the inventory quantity A of the part A in the inventory database based on the part number A, wherein the part A corresponds to the part number A;

if the inventory quantity A of the part A is larger than the threshold value, updating the inventory quantity A of the part A based on the inventory data updating instruction A by an inventory management server to obtain an inventory quantity B of the part A;

after the inventory management server obtains the inventory quantity B of the part A, marking the inventory quantity B of the part A as recoverable data by the inventory management server;

after the inventory management server obtains the inventory quantity B of the parts a, the inventory management server sends an indication of sufficient inventory of the parts a to the management terminal a, wherein the management terminal a can send a part extraction instruction to the inventory management server only after the management terminal a receives the indication of sufficient inventory of the parts a.

In a preferred embodiment, the system is further configured to perform the following operations:

before the inventory management server receives the part extraction instruction, the inventory management server receives part inquiry information B sent by a management terminal B, wherein the part inquiry information B comprises a part number A and an inventory data updating instruction C;

after the inventory management server receives the part inquiry information B, inquiring the inventory quantity B of the part A in the inventory database based on the part number A by the inventory management server;

if the inventory quantity B of the parts A is smaller than the threshold value, an indication of insufficient inventory of the parts A is sent to the management terminal B by the inventory management server.

In a preferred embodiment, the system is further configured to perform the following operations:

after the inventory management server sends an indication of insufficient inventory of the part A to the management terminal B, the inventory management server judges whether a part extraction instruction sent by the management terminal A is received or not;

if the inventory management server does not receive the part extraction instruction sent by the management terminal A within a predefined time, restoring the inventory quantity B of the part A to the inventory quantity A of the part A by the inventory management server;

after the management terminal B receives the indication of insufficient inventory of the part A, the management terminal B sends part inquiry information B again to an inventory management server, wherein the part inquiry information B comprises a part number A and an inventory data updating instruction C;

after the inventory management server restores the inventory quantity B of the parts a to the inventory quantity a of the parts a, the inventory management server again receives the retransmitted parts inquiry information B.

In a preferred embodiment, the system is further configured to perform the following operations:

after the inventory management server receives the retransmitted part inquiry information B again, the inventory management server inquires the inventory number a of the part a in the inventory database based on the part number a;

if the inventory quantity A of the part A is larger than the threshold value, updating the inventory quantity A of the part A by an inventory management server based on the inventory data updating instruction C to obtain the inventory quantity C of the part A;

after the inventory management server obtains the inventory number C of the part A, marking the inventory number C of the part A as recoverable data by the inventory management server;

after the inventory management server obtains the inventory quantity C of the parts a, the inventory management server sends an indication that the inventory of the parts a is sufficient to the management terminal B, wherein the management terminal B can send a part extraction instruction to the inventory management server only after the management terminal B receives the indication that the inventory of the parts a is sufficient.

Compared with the prior art, the invention has the following advantages that the numerical operation logic of the current inventory database has inherent defects, so that the inventory quantity of the parts cannot correctly predict the actual demand of a user on certain parts, and finally the management terminal has unsuccessful requirement on using the parts. For example, a user may be querying a part inventory to indicate that a part is sufficient, but the user may be requesting the part by placing an order, and may indicate that the part is insufficient. This discrepancy results in inefficiency in factory maintenance. The method of the present invention prevents the occurrence of the aforementioned contradictions by proposing a new operating logic for the database.

Drawings

FIG. 1 is a schematic system architecture diagram of one embodiment of the present invention.

FIG. 2 is a method flow diagram of one embodiment of the present invention.

Detailed Description

The following detailed description of embodiments of the invention is, therefore, to be taken in conjunction with the accompanying drawings, and it is to be understood that the scope of the invention is not limited to the specific embodiments.

Through research, the management terminal displays that more parts are in stock when the management terminal performs part stock quantity query operation, but the main reason that the management terminal displays that the parts are in stock is insufficient when the management terminal places a list of the parts is that the numerical operation logic of the current database has inherent defects, so that the part stock quantity cannot accurately predict the actual requirement of a user on certain parts, and finally the management terminal requires unsuccessful use of the parts. The specific analysis is as follows: the operating logic of existing systems is that if a user only interrogates the inventory quantity of a certain part, the inventory management server only provides the user with the current inventory quantity of that part, but the prior art is unaware that when a user interrogates the inventory quantity of a certain part, the user will typically then actually place an order for that part, resulting in a reduction in the inventory quantity of that part. Therefore, if the user a and the user B query the stock quantity of the part a at the same time, both the user a and the user B can get feedback that the stock quantity of the part a is sufficient, then the user a may first order the part a, and the stock management server transfers the part a to the user a, at this time, if the user B orders the part a to the stock management server, a part of the part a is transferred to the user a, so that the stock of the current part a is insufficient, and the part a cannot be transferred to the user B. Then from the perspective of user B, it appears that user B is sufficient to query part a for part a inventory, but that user B is insufficient to actually place a request for part a. Unlike a general e-commerce shopping scenario, in a factory environment, since the unit price of each part is high, and many parts need to be ordered to a factory several months in advance, once such a problem of numerical contradiction occurs, a factory generally needs to start a cumbersome investigation procedure to determine a specific cause of the occurrence of the numerical contradiction (for example, the numerical contradiction may be caused by a memory failure, may be caused by a data entry error, may be caused by an inventory number display error in the inquiry process, etc., and the investigation process is cumbersome because all the foregoing possible causes are to be examined). The method of the present invention prevents the occurrence of the aforementioned contradictions by proposing a new operating logic for the database.

Example 1

FIG. 1 is a schematic system architecture diagram of one embodiment of the present invention. As shown in fig. 1, the system of the present invention includes: a plurality of management terminals (wherein the management terminals may be, for example, handheld electronic devices of maintenance personnel (i.e., users) in a factory, such as tablet computers, smartphones or notebook computers, etc.), an inventory management server (an inventory management server is used to manage an inventory database and is responsible for giving instructions to a warehouse to bring out parts required by users) and an actual warehouse.

Example 2

FIG. 2 is a method flow diagram of one embodiment of the present invention. As shown, the method of the present invention comprises the steps of:

step 1: the method comprises the steps that a management terminal A sends part inquiry information A to an inventory management server, wherein the part inquiry information A comprises a part number A and an inventory data updating instruction A; in one example, the inventory data update command a includes at least a part update value, for example, the inventory data update command a may include a part update value of "-5", and the inventory management server may decrease the inventory number of the part a corresponding to the part number a by 5 after receiving the inventory data update command a; in one example, since the management terminal is currently in the parts inventory query phase, the management terminal may not be able to ask the user to estimate the number of finally requested parts in advance without knowing the parts a inventory status, so the parts update value may be generated based on a history, for example, the user of the management terminal may request up to 5 parts a at a time according to the history, the parts update value "-5" may be generated according to the history, for example, the parts update value may also be generated according to the factory requirements, for example, the factory specification specifies that only up to 5 parts a may be requested at a time by a single user, the parts update value "-5" may also be generated; the above examples are illustrative and not limiting, and other reasonable ways of generating part update values may be devised based on the present disclosure;

step 2: after the inventory management server receives the part inquiry information A, the inventory management server inquires the inventory quantity A of the part A in the inventory database based on the part number A, wherein the part A corresponds to the part number A;

step 3: if the inventory quantity A of the part A is larger than the threshold value, updating the inventory quantity A of the part A based on the inventory data updating instruction A by an inventory management server to obtain an inventory quantity B of the part A; in one example, the threshold value may be set based on factory-related specifications, in general, the factory interior will ensure a minimum inventory of each part, once the number of parts reaches a warning line, the factory purchasing department will need to begin purchasing parts, while only the parts with the minimum inventory that may be required to be distributed for use by engineers with advanced rights to handle some of the urgent maintenance tasks cannot be used by general maintenance workers;

step 4: after the inventory management server obtains the inventory quantity B of the part A, marking the inventory quantity B of the part A as recoverable data by the inventory management server; in one example, marking inventory quantity B of part a as recoverable data refers to the inventory quantity B of part a being updated based on certain part interrogation information, the change in data not occurring due to actual changes in the quantity of part a in the physical warehouse;

step 5: after the inventory management server obtains the inventory quantity B of the parts a, the inventory management server sends an indication of sufficient inventory of the parts a to the management terminal a, wherein the management terminal a can send a part extraction instruction to the inventory management server only after the management terminal a receives the indication of sufficient inventory of the parts a.

Example 3

In this embodiment, the method further comprises:

before the inventory management server receives the part extraction instruction, the inventory management server receives part inquiry information B sent by a management terminal B, wherein the part inquiry information B comprises a part number A and an inventory data updating instruction C; in one example, the inventory data update command C also includes at least a part update value, for example, the inventory data update command C may include a part update value of "-3", and the inventory management server may decrease the inventory number of the part a corresponding to the part number a by 3 (on the premise that the inventory of the part a is sufficient) after receiving the inventory data update command a;

after the inventory management server receives the part inquiry information B, inquiring the inventory quantity B of the part A in the inventory database based on the part number A by the inventory management server;

if the inventory quantity B of the parts A is smaller than the threshold value, an indication of insufficient inventory of the parts A is sent to the management terminal B by the inventory management server. It will be appreciated by those skilled in the art that if the inventory quantity B of part a is greater than the threshold value, an indication is sent by the inventory management server to the management terminal B that the inventory of part a is sufficient. Thus, in this embodiment, since the inventory management server calculates in advance the number of parts a that the management terminal a may request on the premise that the management terminal a has not received the number of parts a actually requested to be taken out of inventory, and updates the inventory number of parts a to a smaller value "inventory number B of parts a" in advance, this embodiment can ensure that if the management terminal B gets an indication that the parts a are sufficiently stocked, the management terminal B is eventually able to extract a certain number of parts a from the warehouse, so that no contradiction occurs.

Example 4

In this embodiment, the method further comprises:

after the inventory management server sends an indication of insufficient inventory of the part A to the management terminal B, the inventory management server judges whether a part extraction instruction sent by the management terminal A is received or not;

if the inventory management server does not receive the part extraction instruction sent by the management terminal A within a predefined time, restoring the inventory quantity B of the part A to the inventory quantity A of the part A by the inventory management server; in one example, a serviceman holding management terminal a may have queried the inventory of part a, then queried the inventory of part B and part C, and after the serviceman holding management terminal a queries the inventory of all parts B and part C, it may decide to use part B and part C for the present repair, but not part a; thus, the inventory management server may receive the part extraction instruction (for the part a) transmitted by the management terminal a, at which time the inventory management server may restore the inventory quantity of the part a to the original inventory quantity a of the part a; in one example, the predefined time may be specified, for example, as 4s, 5s, 6s, or 7s, etc.; it will be appreciated by those skilled in the art that after this predefined time, the management terminal a can no longer send the part extraction instruction directly, but rather resend the part inquiry information a;

after the management terminal B receives the indication of insufficient inventory of the part A, the management terminal B sends part inquiry information B again to an inventory management server, wherein the part inquiry information B comprises a part number A and an inventory data updating instruction C; in the method of the present invention, the management terminal B is required to resend the part inquiry information B at least once after receiving the indication of the shortage of the inventory of the part a, because the "inventory quantity B of the part a" is not the "real" inventory quantity of the part a, and thus, for example, after the management terminal a finally decides not to extract the part a, the inventory management server will "restore" the real value of the part a to the inventory quantity a of the part a; subsequently, the management terminal B is necessarily required to retransmit the part inquiry information B at least once to acquire "real" inventory information of the part a;

after the inventory management server restores the inventory quantity B of the parts a to the inventory quantity a of the parts a, the inventory management server again receives the retransmitted parts inquiry information B.

The method further comprises the steps of: after the inventory management server receives the retransmitted part inquiry information B again, the inventory management server inquires the inventory number a of the part a in the inventory database based on the part number a; if the inventory quantity A of the part A is larger than the threshold value, updating the inventory quantity A of the part A by an inventory management server based on the inventory data updating instruction C to obtain the inventory quantity C of the part A; after the inventory management server obtains the inventory number C of the part A, marking the inventory number C of the part A as recoverable data by the inventory management server; after the inventory management server obtains the inventory quantity C of the parts a, the inventory management server sends an indication that the inventory of the parts a is sufficient to the management terminal B, wherein the management terminal B can send a part extraction instruction to the inventory management server only after the management terminal B receives the indication that the inventory of the parts a is sufficient.

Example 5

In this embodiment, the method further comprises:

if the inventory management server receives the part extraction instruction A sent by the management terminal A within a predefined time, extracting a part number A, an inventory data updating instruction B and a part extraction instruction in the part extraction instruction A by the inventory management server;

updating, by the inventory management server, the inventory quantity B of the part a based on the inventory data update instruction B to obtain an inventory quantity D of the part a; in one example, the inventory data update instruction B includes the number of parts a actually required by the management terminal a, where the number of parts a actually required by the management terminal a may be the same as or different from the part update value in the inventory data update instruction a;

marking, by the inventory management server, the inventory quantity D of the part a as unrecoverable data; in one example, since the holder of the management terminal a actually takes the part a, the inventory number D of the part a at this time cannot be increased based on the operation of the management terminal a, for example, the management terminal a cannot increase the inventory number of the part a by sending an instruction;

the inventory management server retrieves part a in the warehouse based on the part extraction instructions.

The method further comprises the steps of:

after the inventory management server updates the inventory quantity B of the parts a to the inventory quantity D of the parts a, the inventory management server again receives the retransmitted part inquiry information B; in the method of the present invention, the management terminal B is required to resend the part inquiry information B at least once after receiving the indication of the shortage of the inventory of the parts a, because the "inventory quantity B of the parts a" is not the "real" inventory quantity of the parts a, and thus, for example, after the management terminal a finally decides to extract only a smaller quantity of the parts a, the inventory management server will "update" the real value of the parts a to the inventory quantity D of the parts a; subsequently, the management terminal B is necessarily required to retransmit the part inquiry information B at least once to acquire "real" inventory information of the part a;

after the inventory management server receives the retransmitted part inquiry information B again, the inventory management server inquires the inventory number D of the parts a in the inventory database based on the part number a;

if the inventory quantity D of the part A is larger than the threshold value, updating the inventory quantity D of the part A by the inventory management server based on the inventory data updating instruction C to obtain an inventory quantity E of the part A;

after the inventory management server obtains the inventory quantity E of the part A, marking the inventory quantity E of the part A as recoverable data by the inventory management server;

after the inventory management server obtains the inventory quantity E of the parts a, the inventory management server sends an indication that the inventory of the parts a is sufficient to the management terminal B, wherein the management terminal B can send a part extraction instruction to the inventory management server only after the management terminal B receives the indication that the inventory of the parts a is sufficient.

Example 6

The present invention also provides an equipment security resource management system, characterized in that the system is configured to perform the following operations:

the method comprises the steps that a management terminal A sends part inquiry information A to an inventory management server, wherein the part inquiry information A comprises a part number A and an inventory data updating instruction A;

after the inventory management server receives the part inquiry information A, the inventory management server inquires the inventory quantity A of the part A in the inventory database based on the part number A, wherein the part A corresponds to the part number A;

if the inventory quantity A of the part A is larger than the threshold value, updating the inventory quantity A of the part A based on the inventory data updating instruction A by an inventory management server to obtain an inventory quantity B of the part A;

after the inventory management server obtains the inventory quantity B of the part A, marking the inventory quantity B of the part A as recoverable data by the inventory management server;

after the inventory management server obtains the inventory quantity B of the parts a, the inventory management server sends an indication of sufficient inventory of the parts a to the management terminal a, wherein the management terminal a can send a part extraction instruction to the inventory management server only after the management terminal a receives the indication of sufficient inventory of the parts a.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explanation of the principles of the present invention and are in no way limiting of the invention. Accordingly, any modification, equivalent replacement, improvement, etc. made without departing from the spirit and scope of the present invention should be included in the scope of the present invention. Furthermore, the appended claims are intended to cover all such changes and modifications that fall within the scope and boundary of the appended claims, or equivalents of such scope and boundary.

Claims (10)

1. A method of equipment provisioning resource management, the method comprising:

the method comprises the steps that a management terminal A sends part inquiry information A to an inventory management server, wherein the part inquiry information A comprises a part number A and an inventory data updating instruction A;

after the inventory management server receives the part inquiry information A, the inventory management server inquires the inventory quantity A of the part A in an inventory database based on the part number A, wherein the part A corresponds to the part number A;

if the inventory quantity A of the part A is larger than a threshold value, updating the inventory quantity A of the part A based on the inventory data updating instruction A by an inventory management server to obtain an inventory quantity B of the part A;

after the inventory management server obtains the inventory quantity B of the part A, marking the inventory quantity B of the part A as recoverable data by the inventory management server;

after the inventory management server obtains the inventory quantity B of the parts A, the inventory management server sends an indication that the inventory of the parts A is sufficient to the management terminal A, wherein the management terminal A can send a part extraction instruction to the inventory management server only after the management terminal A receives the indication that the inventory of the parts A is sufficient.

2. The method of claim 1, wherein the method further comprises:

before the inventory management server receives the part extraction instruction, the inventory management server receives part inquiry information B sent by a management terminal B, wherein the part inquiry information B comprises a part number A and an inventory data updating instruction C;

after the inventory management server receives the part inquiry information B, inquiring the inventory quantity B of the part A in an inventory database based on the part number A by the inventory management server;

and if the inventory quantity B of the parts A is smaller than the threshold value, sending an indication of insufficient inventory of the parts A to the management terminal B by an inventory management server.

3. The method of claim 2, wherein the method further comprises:

after the inventory management server sends an indication of insufficient inventory of the part A to the management terminal B, the inventory management server judges whether a part extraction instruction sent by the management terminal A is received or not;

if the inventory management server does not receive the part extraction instruction sent by the management terminal A within a predefined time, the inventory management server restores the inventory quantity B of the part A to the inventory quantity A of the part A;

after receiving the indication of insufficient inventory of the part A by the management terminal B, the management terminal B sends part inquiry information B again to the inventory management server, wherein the part inquiry information B comprises a part number A and an inventory data updating instruction C;

after the inventory management server restores the inventory quantity B of the parts a to the inventory quantity a of the parts a, the inventory management server again receives the retransmitted parts inquiry information B.

4. A method as claimed in claim 3, wherein the method further comprises:

after the inventory management server receives the retransmitted part inquiry information B again, inquiring the inventory quantity A of the part A in the inventory database based on the part number A by the inventory management server;

if the stock quantity A of the part A is larger than a threshold value, updating the stock quantity A of the part A based on the stock data updating instruction C by an inventory management server to obtain the stock quantity C of the part A;

after the inventory management server obtains the inventory quantity C of the part A, marking the inventory quantity C of the part A as recoverable data by the inventory management server;

after the inventory management server obtains the inventory quantity C of the parts A, the inventory management server sends an indication that the inventory of the parts A is sufficient to the management terminal B, wherein the management terminal B can send a part extraction instruction to the inventory management server only after the management terminal B receives the indication that the inventory of the parts A is sufficient.

5. The method of claim 2, wherein the method further comprises:

if the inventory management server receives a part extraction instruction A sent by the management terminal A within a predefined time, extracting a part number A, an inventory data updating instruction B and a part extraction instruction in the part extraction instruction A by the inventory management server;

updating, by an inventory management server, the inventory quantity B of the part a based on the inventory data update instruction B to obtain an inventory quantity D of the part a;

marking, by an inventory management server, an inventory quantity D of the part a as unrecoverable data;

and calling the part A in the warehouse by the inventory management server based on the part extraction instruction.

6. The method of claim 5, wherein the method further comprises:

after the inventory management server updates the inventory quantity B of the part A to the inventory quantity D of the part A, the inventory management server receives the retransmitted part inquiry information B again;

after the inventory management server receives the retransmitted part inquiry information B again, inquiring the inventory quantity D of the parts A in the inventory database based on the part number A by the inventory management server;

if the inventory quantity D of the part A is larger than a threshold value, updating the inventory quantity D of the part A based on the inventory data updating instruction C by an inventory management server to obtain an inventory quantity E of the part A;

after the inventory management server obtains the inventory quantity E of the part A, marking the inventory quantity E of the part A as recoverable data by the inventory management server;

after the inventory management server obtains the inventory quantity E of the parts A, the inventory management server sends an indication that the inventory of the parts A is sufficient to the management terminal B, wherein the management terminal B can send a part extraction instruction to the inventory management server only after the management terminal B receives the indication that the inventory of the parts A is sufficient.

7. An equipment assurance resource management system, the system being configured to:

the method comprises the steps that a management terminal A sends part inquiry information A to an inventory management server, wherein the part inquiry information A comprises a part number A and an inventory data updating instruction A;

after the inventory management server receives the part inquiry information A, the inventory management server inquires the inventory quantity A of the part A in an inventory database based on the part number A, wherein the part A corresponds to the part number A;

if the inventory quantity A of the part A is larger than a threshold value, updating the inventory quantity A of the part A based on the inventory data updating instruction A by an inventory management server to obtain an inventory quantity B of the part A;

after the inventory management server obtains the inventory quantity B of the part A, marking the inventory quantity B of the part A as recoverable data by the inventory management server;

after the inventory management server obtains the inventory quantity B of the parts A, the inventory management server sends an indication that the inventory of the parts A is sufficient to the management terminal A, wherein the management terminal A can send a part extraction instruction to the inventory management server only after the management terminal A receives the indication that the inventory of the parts A is sufficient.

8. The system of claim 7, wherein the system is further configured to perform operations comprising:

before the inventory management server receives the part extraction instruction, the inventory management server receives part inquiry information B sent by a management terminal B, wherein the part inquiry information B comprises a part number A and an inventory data updating instruction C;

after the inventory management server receives the part inquiry information B, inquiring the inventory quantity B of the part A in an inventory database based on the part number A by the inventory management server;

and if the inventory quantity B of the parts A is smaller than the threshold value, sending an indication of insufficient inventory of the parts A to the management terminal B by an inventory management server.

9. The system of claim 8, wherein the system is further configured to perform operations comprising:

after the inventory management server sends an indication of insufficient inventory of the part A to the management terminal B, the inventory management server judges whether a part extraction instruction sent by the management terminal A is received or not;

if the inventory management server does not receive the part extraction instruction sent by the management terminal A within a predefined time, the inventory management server restores the inventory quantity B of the part A to the inventory quantity A of the part A;

after receiving the indication of insufficient inventory of the part A by the management terminal B, the management terminal B sends part inquiry information B again to the inventory management server, wherein the part inquiry information B comprises a part number A and an inventory data updating instruction C;

after the inventory management server restores the inventory quantity B of the parts a to the inventory quantity a of the parts a, the inventory management server again receives the retransmitted parts inquiry information B.

10. The system of claim 9, wherein the system is further configured to perform operations comprising:

after the inventory management server receives the retransmitted part inquiry information B again, inquiring the inventory quantity A of the part A in the inventory database based on the part number A by the inventory management server;

if the stock quantity A of the part A is larger than a threshold value, updating the stock quantity A of the part A based on the stock data updating instruction C by an inventory management server to obtain the stock quantity C of the part A;

after the inventory management server obtains the inventory quantity C of the part A, marking the inventory quantity C of the part A as recoverable data by the inventory management server;

after the inventory management server obtains the inventory quantity C of the parts A, the inventory management server sends an indication that the inventory of the parts A is sufficient to the management terminal B, wherein the management terminal B can send a part extraction instruction to the inventory management server only after the management terminal B receives the indication that the inventory of the parts A is sufficient.

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