CN113487201A

CN113487201A - Instrument relocation task distribution system

Info

Publication number: CN113487201A
Application number: CN202110796176.2A
Authority: CN
Inventors: 张平; 张婷; 张奥博
Original assignee: Hainan Maliang Shifu Network Technology Co ltd
Current assignee: Hainan Maliang Shifu Network Technology Co ltd
Priority date: 2021-07-14
Filing date: 2021-07-14
Publication date: 2021-10-08
Anticipated expiration: 2041-07-14
Also published as: CN113487201B

Abstract

The invention relates to an instrument relocation task distribution system which comprises a bottom platform and a plurality of application platforms used in parallel, wherein the bottom platform is established based on a block chain. The bottom platform comprises a first communication module, a task library and a personnel library. The application platform comprises a second communication module, a primary user operation interface and a secondary user operation interface. The primary user operation interface is provided with a first registration module and a primary task creation module. The primary task creation module comprises the following steps: s110, creating a plurality of sequentially executed primary tasks; s120, generating a primary number of each primary task; s130, setting a responsible person of each primary task; s140, generating a total flow in sequence by each primary task, and sending the total flow to a person in charge of each primary task; s150, sending the corresponding primary task to a person in charge of the primary task at the beginning of the total flow; and the secondary user operation interface is provided with a second registration module, a first task receiving module and a first task closing module.

Description

Instrument relocation task distribution system

Technical Field

The invention relates to the technical field of block chains, in particular to an instrument relocation task distribution system based on a block chain.

Background

After successful signing, instruments produced by a factory generally need to be moved, and the instrument moving relates to the cooperative operation of a plurality of departments, such as an external contact department, a packaging department, a transportation department, an installation department and an acceptance department, overseas and customs departments, and random situations can occur in each instrument moving task, for example, for the installation department, some instruments need to be transformed on site by water, electricity and gas, some instruments need to be transformed by a circuit, and the situation is complex anyway. Generally, a factory instrument relocation task needs to be planned in advance and assigned through communication methods such as mails, office software, and telephones, and a special instrument relocation task assignment system is not provided.

In addition, in recent years, the blockchain technology is hot, and the blockchain is an integrated application of technologies such as distributed digital storage, point-to-point transmission, consensus mechanism, encryption algorithm, and the like. In a narrow sense, the blockchain is a chain data structure which combines data blocks in a sequential connection manner according to a time sequence, and is a distributed account book which is guaranteed in a cryptographic manner and is not falsifiable and counterfeitable. Broadly speaking, the blockchain technique is a completely new distributed infrastructure and computing paradigm that utilizes blockchain data structures to verify and store data, utilizes distributed node consensus algorithms to generate and update data, utilizes cryptography to secure data transmission and access, and utilizes intelligent contracts to program and manipulate data. Compared with the traditional database technology, the block chain has 3 advantages: one is the non-tamper-ability of the data; secondly, maintaining the system collectively; and thirdly, the information is transparent to disclosure. Based on the research on the routine process of the instrument relocation task and combined with the block chain technology, the inventor develops the system of the invention.

Disclosure of Invention

In order to solve the above-mentioned deficiencies in the prior art, the present invention mainly aims to provide an instrument relocation task allocation system.

The technical scheme for solving the problems is realized as follows:

an instrument relocation task allocation system comprises an underlying platform established based on a block chain and a plurality of application platforms used in parallel and established based on the block chain. The bottom platform comprises a first communication module, a task library and a personnel library, wherein: the first communication module is used for realizing data communication; the task library is used for storing a successfully created task list, and the task list comprises a task number, a task name, a plurality of primary tasks and a responsible person of each primary task; the personnel library is used for storing personnel information which is successfully registered, and the personnel information comprises departments, job numbers, names, levels and contact ways; the application platform comprises a second communication module, a primary user operation interface and a secondary user operation interface, wherein: the second communication module is used for realizing data communication; the first-level user operation interface is provided with a first registration module and a first-level task creation module, wherein: the first registration module is used for registering to obtain a user name and a password of a primary user and the operation authority of an operation interface of the primary user; the primary task creating module is used for creating a primary task and comprises the following steps: s110, creating a plurality of sequentially executed primary tasks; s120, generating a primary number of each primary task, and naming the primary numbers executed in sequence; s130, setting a responsible person of each primary task; s140, generating a total flow in sequence by each primary task, and sending the total flow to a person in charge of each primary task; s150, sending the corresponding primary task to a person in charge of the primary task at the beginning of the total flow; the second-level user operation interface is provided with a second registration module, a first task receiving module and a first task closing module, wherein: the second registration module is used for registering to obtain the user name and the password of the secondary user and the operation authority of the operation interface of the secondary user; the first task receiving module is used for receiving the total flow sent by the primary task creating module and the primary task corresponding to the current user and enabling the current primary task to be in an activated state; the first task closing module is used for closing the current primary task and triggering the next operation, and comprises the following steps: m110, position judgment: judging whether the position of the current primary task is at the end of the total flow, if so, ending the current primary task and the total flow; otherwise, executing the next step; and M120, finishing the current primary task and sending the corresponding primary task to the responsible person of the next primary task.

Further, the secondary user operation interface also comprises a secondary task creating module for creating a secondary task.

Further, the secondary task creation module comprises the following steps: s210, creating a plurality of sequentially executed secondary tasks for the current primary task; s220, generating secondary numbers of the secondary tasks, wherein the secondary numbers are named in sequence; s230, setting a responsible person of each secondary task; s240, generating sub-processes by the secondary tasks in sequence, and sending the sub-processes to the responsible persons of the secondary tasks; and S250, sending the corresponding secondary task to a person in charge of the secondary task at the beginning of the sub-process.

Further, still include tertiary user operation interface, lay and be equipped with: the third registration module is used for registering to obtain a user name and a password of the third-level user and the operation authority of the operation interface of the third-level user; the second task receiving module is used for receiving the total flow sent by the primary task creating module, the sub-flow sent by the secondary task creating module and the secondary task corresponding to the current user and enabling the current secondary task to be in an activated state; the second task closing module is used for closing the current secondary task and triggering the next operation, and comprises the following steps: m210, position judgment: judging whether the position of the current secondary task is at the end of the sub-process, if so, ending the current secondary task and the sub-process; otherwise, executing the next step; and M220, finishing the current secondary task and sending the corresponding secondary task to the responsible person of the next secondary task.

Further, step S110 further includes an operation of creating at least one parallel executed primary task for sequentially executed primary tasks, where the parallel executed primary tasks have the same primary number.

Further, step S210 further includes an operation of creating at least one parallel secondary task for sequentially executed secondary tasks, where the parallel secondary tasks have the same secondary number.

Further, in the position judgment in step M110, nested parallel task judgment: if the position judgment result is 'yes', executing parallel task judgment: judging whether the current primary task has a primary task executed in parallel and other primary tasks are closed, if so, ending the current primary task and the total flow; otherwise, only the current primary task is ended.

Further, in the position determination in step M210, determination of the nested parallel task: if the position judgment result is 'yes', executing parallel task judgment: judging whether the current secondary task has a secondary task executed in parallel and other secondary tasks are closed, if so, ending the current secondary task and the sub-process; otherwise, only the current secondary task is ended.

Further, the total flow and the sub-flow are displayed in the form of a textual description or a diagram.

Furthermore, the first communication module and the second communication module are wireless communication modules.

The invention has the beneficial effects that:

(1) the task is decomposed in a first level by the creation of a first level task which is executed in sequence and in parallel, and the task can be rapidly distributed to related responsible persons by combining a wireless communication module;

(2) the secondary task creation module is arranged, so that task allocation can be more detailed and accurate, and traceability is improved;

(3) the method realizes visualization of the flow by displaying the total flow chart in a form, and is convenient for each responsible person to quickly lock the responsible work and know the whole relocation flow.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

FIG. 1: the invention is a module connection diagram;

FIG. 2: generating a block diagram of a total flow and a sub-flow according to the content in the table 1;

FIG. 3: a flow diagram of steps performed by a first task shutdown module;

FIG. 4: a flow chart of steps performed by the second task shutdown module.

Description of the reference numerals

100 bottom layer platform

110 first communication module

120 task library

130 personnel storeroom

200 application platform

210 level user interface

211 first registration module

212 primary task creation Module

220 two-level user interface

221 second registration module

222 first task receiving module

223 first task shutdown module

224 secondary task creation module

230 three-level user operation interface

231 third registration module

232 second task receiving module

233 second task shutdown Module

240 a second communication module.

Detailed Description

The technical solution in the embodiments of the present invention is clearly and completely described below with reference to the drawings in the embodiments of the present invention. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways than those specifically described and will be readily apparent to those of ordinary skill in the art without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

Referring to fig. 1 to 4, the instrument relocation task allocation system of the present invention includes a bottom platform 100 established based on a block chain and a plurality of application platforms 200 established based on the block chain and used in parallel.

The underlying platform 100 includes a first communication module 110, a task library 120 and a personnel library 130, the underlying platform 100 may be a server based on the blockchain technology, or may also be a computer host based on the blockchain technology, but not limited thereto, as long as the function of encrypted storage can be implemented, where:

a first communication module 110, configured to implement data communication, preferably a wireless communication module, such as a GPRS wireless communication module;

the task library 120 is used for storing a successfully created task list, wherein the task list comprises a task number, a task name, a plurality of primary tasks and the responsible persons of the primary tasks, a plurality of secondary tasks and the responsible persons of the secondary tasks;

and the personnel library 130 is used for storing personnel information of successful registration, wherein the personnel information comprises departments, job numbers, names, levels and contact ways.

The application platform 200 includes a second communication module 240, a primary user operation interface 210, a secondary user operation interface 220, and a tertiary user operation interface 230, the application platform 200 may be a computer host based on the block chain technology, and may also be an intelligent mobile device based on the block chain technology, such as a mobile phone, a tablet, and the like, wherein:

a second communication module 240 for implementing data communication, preferably a wireless communication module, such as a GPRS wireless communication module;

the primary user operation interface 210 is provided with a first registration module 211 and a primary task creation module 212, wherein:

the first registration module 211 is configured to register to obtain a user name and a password of a primary user and an operation authority of the primary user operation interface 210, and generally, a general responsible person of a relocation task of a factory performs registration;

a primary task creation module 212, configured to create a primary task, includes the following steps (see also the example in table 1):

s110, creating a plurality of sequentially executed primary tasks, and selectively creating at least one parallel executed primary task for the sequentially executed primary tasks;

s120, generating a primary number of each primary task, wherein the primary numbers of the sequentially executed primary tasks are named in sequence, the same primary number is arranged between the parallelly executed primary tasks, see table 1, the table 1 is an example of a relocation task flow chart, the sequentially executed primary tasks with the primary numbers of N100-N600 are arranged in the table 1, and two parallelly executed (simultaneously executed) primary tasks with the primary numbers of N100 are also arranged;

s130, setting a responsible person of each primary task;

s140, generating a total flow in sequence by each primary task, and sending the total flow to a person in charge of each primary task;

s150, sending the corresponding primary task to a person in charge of the primary task at the beginning of the total flow;

the secondary user operation interface 220 is provided with a second registration module 221, a first task receiving module 222, a first task closing module 223, and a secondary task creating module 224, wherein:

the second registration module 221, configured to register to obtain a user name and a password of the secondary user and an operation authority of the secondary user operation interface 220, where the registration is generally performed by a responsible person in each department of the factory, and the responsible person in each department may directly perform the primary task or may continue to decompose the primary task according to a work requirement;

a first task receiving module 222, configured to receive the total flow sent by the primary task creating module 212 and the primary task corresponding to the current user, and enable the current primary task to be in an activated state; the total flow can be described in a text form, and can also be displayed in a graph form, such as a table shown in table 1 and a block flow chart shown in fig. 2 (fig. 2 is generated based on the content of table 1), and the visualization of the flow is realized in the graph form, so that each person in charge can quickly lock the work in charge of the person in charge and know the whole relocation flow;

the first task closing module 223 is configured to close the current primary task and trigger the next operation, including the steps, as shown in fig. 3:

m110, position judgment: judging whether the position of the current primary task is at the end of the total flow, if so, executing parallel task judgment; otherwise, executing the next step;

judging parallel tasks: judging whether the current primary task has a primary task executed in parallel and other primary tasks are closed, if so, ending the current primary task and the total flow; otherwise, only ending the current primary task;

m120, finishing the current primary task and sending the corresponding primary task to a responsible person of the next primary task;

the secondary task creating module 224, which is selectively executed by the responsible persons of each department, is used for creating the secondary task by the responsible persons of each department when the primary task needs to be decomposed continuously according to the work requirement, and comprises the following steps:

s210, creating a plurality of sequentially executed secondary tasks for the current primary task; and an operation of selectively creating at least one secondary task to be executed in parallel for the sequentially executed secondary tasks therein;

s220, generating secondary numbers of all secondary tasks, naming the sequentially executed secondary numbers in sequence, and enabling the parallelly executed secondary tasks to have the same secondary numbers; still taking table 1 as an example, the primary task with the primary number N200 may be decomposed by the responsible person C, creating two sequentially executed secondary tasks with the secondary numbers N210 and N220; the primary task with the primary number of N400 can be decomposed continuously by a responsible person F, and two sequentially executed secondary tasks with the secondary numbers of N410 and N420 are created; the primary task with the primary number of N500 can be continuously decomposed by the responsible person G, and four secondary tasks with the secondary numbers of N510 which are executed in parallel (can be simultaneously executed) are created, and the primary task is decomposed into the secondary tasks again by the responsible persons of all departments according to actual needs, so that the decomposition is more detailed and accurate, the effective execution of the overall task can be promoted, and the accurate tracing of related work is realized;

s230, setting a responsible person of each secondary task;

s240, generating sub-processes by the secondary tasks in sequence, and sending the sub-processes to the responsible persons of the secondary tasks;

s250, sending the corresponding secondary task to a person in charge of the secondary task at the beginning of the sub-process;

the third-level user operation interface 230 is provided with a third registration module 231, a second task receiving module 232 and a second task closing module, wherein:

a third registration module 231, configured to register to obtain a user name and a password of a third-level user and an operation authority of the third-level user operation interface 230, where there are members of each department to register;

a second task receiving module 232, configured to receive the total flow sent by the primary task creating module 212, the sub-flow sent by the secondary task creating module 224, and the secondary task corresponding to the current user, and enable the current secondary task to be in an activated state; wherein, the total flow and the sub-flow are displayed in the form of character description or diagram;

a second task closing module 233, configured to close the current secondary task and trigger the next operation, including the steps, as shown in fig. 4:

m210, position judgment: judging whether the position of the current secondary task is at the end of the sub-process, if so, executing parallel task judgment; otherwise, executing the next step;

judging parallel tasks: judging whether the current secondary task has a secondary task executed in parallel and other secondary tasks are closed, if so, ending the current secondary task and the sub-process; otherwise, only finishing the current secondary task;

and M220, finishing the current secondary task and sending the corresponding secondary task to the responsible person of the next secondary task.

The foregoing description is only of the preferred embodiments of the present invention, and it should be understood that the described embodiments are only a few, and not all, of the embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Claims

1. An instrument relocation task allocation system, comprising an underlying platform (100) established based on a blockchain and a plurality of application platforms (200) established based on the blockchain and used in parallel, wherein:

the underlying platform (100) comprises a first communication module (110), a task library (120) and a personnel library (130), wherein:

the first communication module (110) is used for realizing data communication;

the task library (120) is used for storing a successfully created task list, and the task list comprises a task number, a task name, a plurality of primary tasks and a responsible person of each primary task;

the personnel library (130) is used for storing personnel information which is successfully registered, and the personnel information comprises departments, job numbers, names, levels and contact ways;

the application platform (200) comprises a second communication module (240), a primary user operation interface (210) and a secondary user operation interface (220), wherein:

the second communication module (240) is used for realizing data communication;

the primary user operation interface (210) is provided with a first registration module (211) and a primary task creation module (212), wherein:

the first registration module (211) is used for registering to obtain a user name and a password of a primary user and the operation authority of the primary user operation interface (210);

a primary task creation module (212) for creating a primary task, comprising the steps of:

s110, creating a plurality of sequentially executed primary tasks;

s120, generating a primary number of each primary task, and naming the primary numbers executed in sequence;

s130, setting a responsible person of each primary task;

the second-level user operation interface (220) is provided with a second registration module (221), a first task receiving module (222) and a first task closing module (223), wherein:

the second registration module (221) is used for registering to obtain the user name and the password of the secondary user and the operation authority of the secondary user operation interface (220);

the first task receiving module (222) is used for receiving the total flow sent by the primary task creating module (212) and the primary task corresponding to the current user and enabling the current primary task to be in an activated state;

a first task shutdown module (223) for shutting down the current level task and triggering the next operation, comprising the steps of:

m110, position judgment: judging whether the position of the current primary task is at the end of the total flow, if so, ending the current primary task and the total flow; otherwise, executing the next step;

and M120, finishing the current primary task and sending the corresponding primary task to the responsible person of the next primary task.

2. The instrument relocation task allocation system according to claim 1, wherein the secondary user operation interface (220) further includes a secondary task creation module (224) for creating a secondary task.

3. The instrument relocation task allocation system according to claim 2, wherein the secondary task creation module (224) comprises the steps of:

s210, creating a plurality of sequentially executed secondary tasks for the current primary task;

s220, generating secondary numbers of the secondary tasks, wherein the secondary numbers are named in sequence;

s230, setting a responsible person of each secondary task;

and S250, sending the corresponding secondary task to a person in charge of the secondary task at the beginning of the sub-process.

4. The instrument relocation task allocation system according to claim 3, further comprising a tertiary user operation interface (230) provided with:

the third registration module (231) is used for registering to obtain the user name and the password of the third-level user and the operation authority of the third-level user operation interface (230);

the second task receiving module (232) is used for receiving the total flow sent by the primary task creating module (212), the sub-flow sent by the secondary task creating module (224) and the secondary task corresponding to the current user and enabling the current secondary task to be in an activated state;

a second task closing module (233) for closing the current secondary task and triggering the next operation, comprising the steps of:

m210, position judgment: judging whether the position of the current secondary task is at the end of the sub-process, if so, ending the current secondary task and the sub-process; otherwise, executing the next step;

5. The instrument relocation task allocation system according to claim 4, further comprising an operation of creating at least one parallel execution primary task for sequentially executed primary tasks therein, wherein the parallel execution primary tasks have the same primary number therebetween.

6. The instrument relocation task allocation system according to claim 5, further comprising an operation of creating at least one parallel secondary task for sequentially executed secondary tasks therein, wherein the parallel secondary tasks have the same secondary number therebetween in step S210.

7. The instrument relocation task allocation system according to claim 6, wherein the nested parallel task determination in the position determination in step M110:

if the position judgment result is 'yes', executing parallel task judgment: judging whether the current primary task has a primary task executed in parallel and other primary tasks are closed, if so, ending the current primary task and the total flow; otherwise, only the current primary task is ended.

8. The instrument relocation task allocation system according to claim 7, wherein the judgment of the nested parallel tasks in the position judgment in step M210:

if the position judgment result is 'yes', executing parallel task judgment: judging whether the current secondary task has a secondary task executed in parallel and other secondary tasks are closed, if so, ending the current secondary task and the sub-process; otherwise, only the current secondary task is ended.

9. The instrument relocation task allocation system according to claim 8, wherein the total flow and the sub-flows are displayed in the form of a textual description or a graph.

10. The instrument relocation task allocation system according to claim 9, wherein the first communication module (110) and the second communication module (240) are wireless communication modules.