CN113807792A - Collaborative processing method, system, equipment and storage medium based on discrete scene - Google Patents

Abstract

The invention provides a cooperative processing method, a system, equipment and a storage medium based on discrete scenes, wherein the method comprises the following steps: creating a production order, and establishing a production material list according to the production order, wherein the production material list comprises a plurality of processing procedures; according to a production order, a production material list and a current material inventory, making a production plan, wherein the production plan comprises a plan starting date, a plan finishing date, a processing person and a worker reporting person; producing according to the production plan, generating a production work order according to the production condition, and acquiring work reporting data of work reporting personnel; and updating the work reporting details, the material inventory, the production work order, the production plan and the production order according to the work reporting data. The invention can improve the data cooperativity of each procedure in the production process, integrate and manage all data, realize the transverse networking integration of resource elements such as equipment, personnel, materials and the like, improve the management efficiency and realize the fine management of the production process.

Description

Collaborative processing method, system, equipment and storage medium based on discrete scene

Technical Field

The invention relates to the technical field of industrial internet, in particular to a cooperative processing method, a system, equipment and a storage medium based on discrete scenes.

Background

In the production process, different procedures are usually created according to a bom list on the basis of a production plan, a user performs work reporting operation on the procedures at a client, after the work is finished, the corresponding tasks to be handled are eliminated, and the corresponding information can be seen at a system background. However, in the process of enterprise management, collaboration between sales orders and production workshops is often involved, and the production processes of different orders are different, so that management personnel are cumbersome in data checking, and fine management is difficult to realize.

With the development and growth of enterprises, problems follow, such as common data loss, information fault and management disjointing; meanwhile, the phenomenon of order insertion often occurs in production, if the overstock condition of stocks (finished products and semi-finished products) cannot be known in time, corresponding business arrangement is difficult to perform, so that the enterprise management efficiency is low, production resources cannot be reasonably distributed, each production process is disconnected, and the production cooperativity is poor.

Disclosure of Invention

In view of the foregoing, it is desirable to provide a method, a system, a device, and a storage medium for collaborative processing based on discrete scenes.

A cooperative processing method based on discrete scenes comprises the following steps: creating a production order, and creating a production bill of materials according to the production order, wherein the production bill of materials comprises a plurality of processing procedures; making a production plan according to the production order, the production bill of materials and the current stock of materials, wherein the production plan comprises a plan starting date, a plan finishing date, a processing person and a reporting person; producing according to the production plan, generating a production work order according to the production condition, and acquiring work reporting data of work reporting personnel; and updating the work reporting specification, the material inventory, the production work order, the production plan and the production order according to the work reporting data.

In one embodiment, the updating of the work reporting specification, the material inventory, the production work order, the production plan, and the production order according to the work reporting data specifically includes: and updating the processing number, the qualified number and the scrappage number in the reported work detail according to the reported work data.

In one embodiment, the updating of the work reporting specification, the material inventory, the production work order, the production plan, and the production order according to the work reporting data specifically includes: and counting data of material warehouse-out and material warehouse-in real time, and updating the material inventory in real time by combining the labor reporting data.

In one embodiment, the updating of the work reporting specification, the material inventory, the production work order, the production plan, and the production order according to the work reporting data specifically includes: updating the processing number, the qualified number, the scrappage number, the rework and repair number and the number to be processed in the production work order according to the work reporting data; updating the data to be processed of the next work order, wherein the number to be processed of the next work order is the number to be processed of the next work order, the qualified number of the production work order and the qualified number of the rework and repair of the production work order; and updating the working procedure state and the number to be processed of the corresponding processing working procedure of the production work order.

In one embodiment, the updating of the work reporting specification, the material inventory, the production work order, the production plan, and the production order according to the work reporting data specifically includes: updating the plan state and the plan current progress of the production plan, wherein the plan state comprises plan non-starting, plan in progress, plan finished and plan overdue; the plan current progress (number of completed production work order/planned number of production work order) 100%.

In one embodiment, the updating of the work reporting specification, the material inventory, the production work order, the production plan, and the production order according to the work reporting data specifically includes: updating the order state and the order current progress of the production order, wherein the order state comprises that the order is started, the order is in progress, the order is completed, the order is overdue and the order is closed; the order current progress is (total completed quantity/total order quantity) 100%.

In one embodiment, the order status includes that the order is not started, the order is in progress, the order is completed, the order is overdue, and the order is closed, and specifically includes: when the order state is that the order is not started, the sum of the scheduling quantity in the production order is 0; when the order state is that the order is in progress, the current time is earlier than the delivery time, the scheduling quantity is more than 0, and the production plan state under the production order is not completely finished; when the order state is that the order is completed, the order quantity in the production order is equal to the scheduling quantity, and the production plan states of the order are completed; when the order state is that the order is overdue, the current time is later than the delivery time, the scheduling quantity is more than 0, and the production plan state under the order is not completely finished; and when the order state is that the order is closed, the production order is closed, and the corresponding production plan, the production work order, the work reporting detail, the work reporting audit and the rework repair data are all synchronously closed.

A discrete scene based co-processing system, comprising: the system comprises a bill of material creating module, a bill of material creating module and a processing module, wherein the bill of material creating module is used for creating a production order and creating a production bill of material according to the production order, and the production bill of material comprises a plurality of processing procedures; the production plan making module is used for making a production plan according to the production order, the production material list and the current material inventory, wherein the production plan comprises a plan starting date, a plan finishing date, a processing person and a worker reporting person; the work reporting data acquisition module is used for producing according to the production plan, generating a production work order according to the production condition and acquiring work reporting data of work reporting personnel; and the data updating module is used for updating the work reporting details, the material inventory, the production work order, the production plan and the production order according to the work reporting data.

An apparatus comprising a memory, a processor and a computer program stored on the memory and executable on the processor, wherein the processor implements the steps of the discrete scene based co-processing method described in the above embodiments when executing the program.

A storage medium on which a computer program is stored, the program, when executed by a processor, implementing the steps of the discrete scene-based co-processing method described in the various embodiments above.

Compared with the prior art, the invention has the advantages and beneficial effects that: the invention can improve the data cooperativity of each procedure in the production process, integrate and manage all the data in the procedures, realize the transverse networking integration of resource elements such as equipment, personnel, materials and the like, improve the management efficiency and realize the fine management of the production process.

Drawings

FIG. 1 is a schematic flow chart illustrating a cooperative processing method based on discrete scenes in an embodiment;

FIG. 2 is a schematic structural diagram of a discrete scene-based co-processing system according to an embodiment;

fig. 3 is a schematic diagram of the internal structure of the apparatus in one embodiment.

Detailed Description

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

In one embodiment, as shown in fig. 1, a method for collaborative processing based on discrete scenes is provided, which includes the following steps:

step S101, creating a production order, and establishing a production bill of materials according to the production order, wherein the production bill of materials comprises a plurality of processing procedures.

Specifically, a production order is created in the enterprise background, and the production order can be acquired through an internal system or generated based on the production order of a client. And establishing a production bill of materials according to the production order, wherein the production bill of materials comprises materials required by producing a certain product and a plurality of processing procedures, and setting a corresponding sequence for the plurality of processing procedures.

And S102, making a production plan according to the production order, the production material list and the current material inventory, wherein the production plan comprises a plan starting date, a plan finishing date, a processing person and a worker.

Specifically, a production plan is made according to a production order, a production bill of materials and a material inventory of a current semi-finished product, wherein the production plan comprises a plan starting date and a plan finishing date, and a processing worker and a worker reporter of each processing procedure are designated.

And S103, producing according to the production plan, generating a production work order according to the production condition, and acquiring work reporting data of work reporting personnel.

Specifically, after the production plan is made, the production plan can be dispatched according to the production plan, a worker can be reported specifically to a certain worker reporter, the worker can be dispatched according to the production condition when the plan is dispatched and the plan starting time is reached, a corresponding production work order can be generated according to the production condition, the worker reporter can report the worker according to the specific production work order, and the worker reporter can report the worker at any time until the production is completed after the production plan is started, so that the worker reporting data of the worker reporter can be obtained.

And step S104, updating the work reporting details, the material inventory, the production work order, the production plan and the production order according to the work reporting data.

Specifically, after a worker reports a work procedure, and the system acquires corresponding work reporting data, the data of the whole process is updated in real time according to the work reporting data, including the data of work reporting details, material inventory, production work orders, production plans and production orders, so that the information rapid interaction and work cooperation in the production process are realized, the production progress can be checked in real time, and the corresponding business adjustment can be performed according to the production progress.

In the embodiment, a production order is created, a production material list is established according to the production order, a production plan is formulated according to the production order, the production material list and the current material inventory, production is performed according to the production plan, a production work order is generated according to the production condition, work reporting data of work reporting personnel is obtained, and work reporting details, the material inventory, the production work order, the production plan and the production order are updated according to the work reporting data, so that data cooperativity of each process in the production process is improved, all data in the process are integrated and managed, transverse networking integration of resource elements such as equipment, personnel, materials and the like is realized, management efficiency is improved, and fine management of the production process is realized.

Wherein, step S104 specifically includes: and updating the processing number, the qualified number and the scrappage number in the manual detail according to the manual data.

Specifically, the labor reporting data includes the number of processed processes, the number of qualified processes, and the number of scrapped processes in one process. The work report detail is the work report data of the current work report personnel, and the work report detail is updated according to the current work report data, so that the work report personnel can conveniently check the work report detail.

Wherein, step S104 specifically includes: and counting data of material warehouse-out and material warehouse-in real time, and updating material inventory by combining the reported data.

Specifically, the material information of the warehouse-in and warehouse-out is counted and displayed in real time, and the material inventory is updated by combining the work reporting data, so that the current inventory of the material can be checked in real time.

Wherein, step S104 specifically includes: updating the processing number, the qualified number, the scrappage number, the rework and repair number and the number to be processed in the production work order according to the work reporting data; updating the data to be processed of the next work order, wherein the number to be processed of the next work order is the number to be processed of the next work order, the qualified number of the production work order and the qualified number of the rework and rework of the production work order; and updating the working procedure state and the number to be processed of the corresponding processing working procedure of the production work order.

Specifically, the number of processes, the number of qualified products, the number of scrapped products, the number of reworked and reworked products and the number of to-be-processed products in the production work order are updated according to the work reporting data, and the production work order can be the completion condition of the processing procedures in a production plan. And updating the number to be processed of the next work order according to the updated production work order, thereby realizing data interaction and facilitating the continuation of the production process.

Meanwhile, updating the process state and the number to be processed of the processing procedure corresponding to the current work order, and if the number to be processed of the processing procedure is 0 and the process state of the previous processing procedure is finished, the process state of the processing procedure is finished; if the number of workpieces is not equal to 0, the process is in progress or not started.

Wherein, step S104 specifically includes: updating the plan state and the plan current progress of the production plan, wherein the plan state comprises plan non-starting, plan in-process, plan finished and plan overdue; the current schedule is (number of completed production work order/planned number of production work order) 100%.

Specifically, the planning status of the production plan includes that the plan is not started, the plan is in progress, the plan is completed, and the plan is overdue. When the plan state of the production plan is plan not starting, the dispatching state is not dispatching or dispatching and the current time is earlier than the plan starting time. When the planning state of the production plan is in progress, the current time is later than the planning start time and earlier than the planning completion time, and the process state of the production plan is not completely completed. When the plan status of the production plan is that the plan is completed, all the process statuses of the production plan corresponding to the machining processes are completed. When the plan state of the production plan is that the plan is overdue, the current time is later than the plan completion time, and the process state of the processing procedure corresponding to the production plan is not completely completed.

And after the production plan is closed, corresponding production work orders, work report details, work report auditing and rework and repair data are all synchronized to be closed.

Specifically, the current schedule of the schedule can be calculated and obtained according to the finished number of the production work orders and the planned number of the production work orders, so that the schedule condition of the production schedule can be checked in real time conveniently.

Wherein, step S104 specifically includes: updating the order state and the order current progress of the production order, wherein the order state comprises that the order is started, the order is in progress, the order is completed, the order is overdue and the order is closed; current order progress is 100% (total completed/total order quantity).

Specifically, the order state and the order current progress of the production order are updated, calculation can be performed through the current total completion number of the production order and the total order quantity of the order, and the progress condition of the production order can be conveniently checked in real time.

When the order state is that the order is not started, the sum of the production quantity in the production order is 0; when the order state is in the order, the current time is earlier than the delivery time, the scheduling quantity is more than 0, and the production plan state under the production order is not completely finished; when the order state is that the order is completed, the order quantity in the production order is equal to the scheduling quantity, and the production plan states of the order are completed; when the order state is that the order is overdue, the current time is later than the delivery time, the scheduling quantity is more than 0, and the production plan state under the order is not completely finished; and when the order state is that the order is closed, the production order is closed, and the corresponding production plan, the production work order, the work reporting detail, the work reporting audit and the rework repair data are all synchronously closed.

Specifically, the order is neutralized to a production order which is overdue, the production order can be manually closed, and after the production order is closed, the corresponding production plan, the production work order, the work reporting detail, the work reporting audit and the rework repair data are all closed synchronously.

As shown in fig. 2, there is provided a discrete scenario based co-processing system 20, comprising: the system comprises a bill of material creating module 21, a production plan making module 22, a work reporting data obtaining module 23 and a data updating module 24, wherein:

the bill of material creation module 21 is used for creating a production order and creating a production bill of material according to the production order, wherein the production bill of material comprises a plurality of processing procedures;

a production plan making module 22, configured to make a production plan according to the production order, the production bill of materials and the current stock of materials, where the production plan includes a plan start date, a plan completion date, a processing person and a staff member;

the work reporting data acquisition module 23 is configured to perform production according to a production plan, generate a production work order according to a production condition, and acquire work reporting data of work reporting personnel;

and the data updating module 24 is used for updating the work reporting details, the material inventory, the production work order, the production plan and the production order according to the work reporting data.

In one embodiment, the data update module 24 is specifically configured to: updating the processing number, the qualified number and the scrappage number in the manual detail according to the manual data

In one embodiment, the data update module 24 is specifically configured to: and counting data of material warehouse-out and material warehouse-in real time, and updating material inventory in real time by combining the reported data.

In one embodiment, the data update module 24 is specifically configured to: updating the processing number, the qualified number, the scrappage number, the rework and repair number and the number to be processed in the production work order according to the work reporting data; updating the data to be processed of the next work order, wherein the number to be processed of the next work order is the number to be processed of the next work order, the qualified number of the production work order and the qualified number of the rework and rework of the production work order; and updating the working procedure state and the number to be processed of the corresponding processing working procedure of the production work order.

In one embodiment, the data update module 24 is specifically configured to: updating the plan state and the plan current progress of the production plan, wherein the plan state comprises plan non-starting, plan in-process, plan finished and plan overdue; the current schedule is (number of completed production work order/planned number of production work order) 100%.

In one embodiment, the data update module 24 is specifically configured to: updating the order state and the order current progress of the production order, wherein the order state comprises that the order is started, the order is in progress, the order is completed, the order is overdue and the order is closed; current order progress is 100% (total completed/total order quantity).

In one embodiment, a device is provided, which may be a server, and its internal structure diagram may be as shown in fig. 3. The device includes a processor, a memory, a network interface, and a database connected by a system bus. Wherein the processor of the device is configured to provide computing and control capabilities. The memory of the device comprises a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system, a computer program, and a database. The internal memory provides an environment for the operation of an operating system and computer programs in the non-volatile storage medium. The database of the device is used for storing configuration templates and also can be used for storing target webpage data. The network interface of the device is used for communicating with an external terminal through a network connection. The computer program is executed by a processor to implement a discrete scene based co-processing method.

Those skilled in the art will appreciate that the configuration shown in fig. 3 is a block diagram of only a portion of the configuration associated with the present application and does not constitute a limitation on the devices to which the present application may be applied, and that a particular device may include more or less components than those shown, or may combine certain components, or have a different arrangement of components.

In one embodiment, a storage medium may also be provided, the storage medium storing a computer program comprising program instructions which, when executed by a computer, may be part of the above-mentioned discrete scene-based co-processing system, cause the computer to perform the method according to the preceding 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 a computer program, which can be stored in a computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. The storage medium may be a magnetic disk, an optical disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), or the like.

It will be apparent to those skilled in the art that the modules or steps of the invention described above may be implemented in a general purpose computing device, they may be centralized on a single computing device or distributed across a network of computing devices, and optionally they may be implemented in program code executable by a computing device, such that they may be stored on a computer storage medium (ROM/RAM, magnetic disks, optical disks) and executed by a computing device, and in some cases, the steps shown or described may be performed in an order different than that described herein, or they may be separately fabricated into individual integrated circuit modules, or multiple ones of them may be fabricated into a single integrated circuit module. Thus, the present invention is not limited to any specific combination of hardware and software.

The foregoing is a more detailed description of the present invention that is presented in conjunction with specific embodiments, and the practice of the invention is not to be considered limited to those descriptions. For those skilled in the art to which the invention pertains, several simple deductions or substitutions can be made without departing from the spirit of the invention, and all shall be considered as belonging to the protection scope of the invention.

Claims (10)

1. A cooperative processing method based on discrete scenes is characterized by comprising the following steps:

creating a production order, and creating a production bill of materials according to the production order, wherein the production bill of materials comprises a plurality of processing procedures;

making a production plan according to the production order, the production bill of materials and the current stock of materials, wherein the production plan comprises a plan starting date, a plan finishing date, a processing person and a reporting person;

producing according to the production plan, generating a production work order according to the production condition, and acquiring work reporting data of work reporting personnel;

and updating the work reporting specification, the material inventory, the production work order, the production plan and the production order according to the work reporting data.

2. The cooperative processing method based on the discrete scenario as claimed in claim 1, wherein the updating of the work reporting details, the material inventory, the production work order, the production plan, and the production order according to the work reporting data specifically includes:

and updating the processing number, the qualified number and the scrappage number in the reported work detail according to the reported work data.

3. The cooperative processing method based on the discrete scenario as claimed in claim 1, wherein the updating of the work reporting details, the material inventory, the production work order, the production plan, and the production order according to the work reporting data specifically includes:

and counting data of material warehouse-out and material warehouse-in real time, and updating the material inventory in real time by combining the labor reporting data.

4. The cooperative processing method based on the discrete scenario as claimed in claim 1, wherein the updating of the work reporting details, the material inventory, the production work order, the production plan, and the production order according to the work reporting data specifically includes:

updating the processing number, the qualified number, the scrappage number, the rework and repair number and the number to be processed in the production work order according to the work reporting data;

updating the data to be processed of the next work order, wherein the number to be processed of the next work order is the number to be processed of the next work order, the qualified number of the production work order and the qualified number of the rework and repair of the production work order;

and updating the working procedure state and the number to be processed of the corresponding processing working procedure of the production work order.

5. The cooperative processing method based on the discrete scenario as claimed in claim 1, wherein the updating of the work reporting details, the material inventory, the production work order, the production plan, and the production order according to the work reporting data specifically includes:

updating the plan state and the plan current progress of the production plan, wherein the plan state comprises plan non-starting, plan in progress, plan finished and plan overdue;

the plan current progress (number of completed production work order/planned number of production work order) 100%.

6. The cooperative processing method based on the discrete scenario as claimed in claim 1, wherein the updating of the work reporting details, the material inventory, the production work order, the production plan, and the production order according to the work reporting data specifically includes:

updating the order state and the order current progress of the production order, wherein the order state comprises that the order is started, the order is in progress, the order is completed, the order is overdue and the order is closed;

the order current progress is (total completed quantity/total order quantity) 100%.

7. The cooperative processing method based on the discrete scenario as claimed in claim 1, wherein the order status includes that the order is not started, the order is in progress, the order is completed, the order is overdue, and the order is closed, specifically comprising:

when the order state is that the order is not started, the sum of the scheduling quantity in the production order is 0;

when the order state is that the order is in progress, the current time is earlier than the delivery time, the scheduling quantity is more than 0, and the production plan state under the production order is not completely finished;

when the order state is that the order is completed, the order quantity in the production order is equal to the scheduling quantity, and the production plan states of the order are completed;

when the order state is that the order is overdue, the current time is later than the delivery time, the scheduling quantity is more than 0, and the production plan state under the order is not completely finished;

and when the order state is that the order is closed, the production order is closed, and the corresponding production plan, the production work order, the work reporting detail, the work reporting audit and the rework repair data are all synchronously closed.

8. A discrete scene based co-processing system, comprising:

the system comprises a bill of material creating module, a bill of material creating module and a processing module, wherein the bill of material creating module is used for creating a production order and creating a production bill of material according to the production order, and the production bill of material comprises a plurality of processing procedures;

the production plan making module is used for making a production plan according to the production order, the production material list and the current material inventory, wherein the production plan comprises a plan starting date, a plan finishing date, a processing person and a worker reporting person;

the work reporting data acquisition module is used for producing according to the production plan, generating a production work order according to the production condition and acquiring work reporting data of work reporting personnel;

and the data updating module is used for updating the work reporting details, the material inventory, the production work order, the production plan and the production order according to the work reporting data.

9. An apparatus comprising a memory, a processor and a computer program stored on the memory and executable on the processor, characterized in that the steps of the method of any of claims 1 to 7 are implemented when the computer program is executed by the processor.

10. A storage medium having a computer program stored thereon, the computer program, when being executed by a processor, realizing the steps of the method of any one of claims 1 to 7.

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