CN115471096A - Workshop peak shifting and production scheduling system based on Internet of things - Google Patents

Abstract

The invention discloses a workshop peak shifting and production scheduling system based on the Internet of things, which has the technical scheme that: the cloud control platform is connected with a bill of material management module, a tool management module, an equipment management module, a production scheduling management module and a basic information management module, wherein the basic information management module comprises a basic data acquisition end, a basic data storage end and a basic data maintenance end, the tool management module is used for acquiring the number, the category and the state information of tools, the equipment management module comprises an equipment monitor and a central control feedback device, after the equipment monitor receives a sent information verification request, the information verification request of the equipment monitor carries verification information to be verified, and the central control feedback device carries out corresponding verification processing according to the verification information; the workshop peak staggering and scheduling system based on the Internet of things can comprehensively acquire various information and improve the peak staggering and scheduling capability.

Description

Workshop peak shifting and production scheduling system based on Internet of things

Technical Field

The invention relates to the field of workshop production, in particular to a workshop peak shifting and production scheduling system based on the Internet of things.

Background

The Internet of things is an important component of a new generation of information technology and is an important development stage of the intelligent and information-based era. In order to ensure the maximum profit and utilization of the workshop, the scheduling arrangement of the workshop needs to be planned.

Can refer to Chinese patent with publication number CN110175746A, which discloses a workshop peak shifting production scheduling system based on the Internet of things, and is characterized by comprising a data acquisition module, a processing analysis module and a planning production scheduling module; the data acquisition module is used for acquiring processing task information of a workshop substitute processing task, wherein the processing task information comprises processing urgency and processing difficulty; the processing and analyzing module is connected with the data acquisition module and specifically comprises a preprocessing module and an initial distribution module; the preprocessing module is used for respectively sequencing the processing difficulty and the processing emergency degree; the initial distribution module generates a processing plan based on the processing urgency degree sequencing, wherein the processing sequence of tasks to be processed is sequenced from high to low in the processing urgency degree, and the tasks to be processed with different processing difficulties are staggered based on the pre-obtained work concentration days of production staff per week and the processing difficulty sequencing.

The above patent has drawbacks such as: it cannot fully master the tool, equipment and other information, and cannot improve the capacity of peak-shifting production.

Disclosure of Invention

Aiming at the problems mentioned in the background technology, the invention aims to provide a workshop peak shifting production scheduling system based on the Internet of things so as to solve the problems mentioned in the background technology.

The technical purpose of the invention is realized by the following technical scheme:

the workshop peak staggering scheduling system based on the Internet of things comprises a cloud control platform, wherein the cloud control platform is connected with a bill of material management module, a tool management module, an equipment management module, a scheduling management module and a basic information management module, the basic information management module comprises a basic data acquisition end, a basic data storage end and a basic data maintenance end, the tool management module is used for acquiring the number, the category and the state information of tools, the equipment management module comprises an equipment monitor and a central control feedback device, after the equipment monitor receives a sent information verification request, verification information to be verified is carried in the information verification request of the equipment monitor, the central control feedback device conducts corresponding verification processing according to the verification information to obtain a verification result, and if the verification result is that the verification passes, the central control feedback device conducts encryption signature processing on the acquired multimedia source information; the central control feedback device sends the multimedia source information after encrypted signature processing to the equipment monitor, the equipment monitor detects the equipment state and sends the equipment information to the central control feedback device, and the scheduling management module comprises a work order schedule generation unit, a process schedule generation unit, a delivery schedule generation unit, a stock schedule generation unit and a capacity load analysis unit.

Preferably, the bill of material management module is connected with a bill of material server, the bill of material server includes a sales management information management and control subunit, a purchase management information management and control subunit, a simulation production information management and control subunit, a finished product bill of material database, and a storage information database which are connected with each other, the bill of material server is connected with a personal terminal and a company terminal, and the personal terminal and the company terminal are in wireless communication connection with the bill of material server.

Preferably, the algorithms applied by the basic information management module include an AI algorithm, a list combining and splitting algorithm, a heuristic algorithm, and a genetic algorithm.

Preferably, the basic data acquisition end is an information acquisition device, and the basic data storage end performs distributed storage on basic data information at a cloud end to obtain a distributed storage database; the basic data maintenance end is connected with the basic data storage end, and when a query instruction of a user is obtained, basic data information is extracted from the distributed storage database; and matching the basic data information at the terminal to obtain target basic data.

Preferably, the work order schedule generation unit comprises a typesetting subunit and a part production schedule production unit, wherein the typesetting subunit binds the typesetting drawing numbers and the part information and summarizes the typesetting drawing numbers into an intermediate table; the typesetting sub-unit sends the intermediate table to ERP; and the ERP automatically generates a part production plan according to the production progress, converts part information into a production plan table according to the intermediate table, and sends the production plan table to the processing equipment.

The preferred, the management unit is scrapped to frock management module includes that frock purchase unit, frock statistical unit, frock examine unit, frock surely guarantor unit, frock repair unit and frock surely, frock purchase unit is used for acquireing frock purchase information and generates the purchase form, frock statistical unit is used for acquireing the figure form of total frock, frock examine unit surely is used for the figure form of statistics surely examining the frock, frock is surely guarantor the unit and is used for making statistics of the frock figure that is in surely guarantor's time and surpasss surely guarantor's time, frock repair unit is used for receiving frock repair information, the management unit is scrapped to the frock is used for acquireing the concrete door type and the figure of scrapping the frock.

Preferably, the scheduling management module further includes a production order module, a commissioning preparation module, and a production module, wherein the production order module manages production order data, the commissioning preparation module verifies commissioning preparation status according to order requirements of the production order module, and the production module manages scheduling progress status of the production order.

Preferably, the cloud control platform is connected with a verification server, and the verification server is used for verifying the identification information of the login cloud control platform; the cloud control platform is connected with a data acquisition control system and an execution unit control system; the cloud control platform also comprises a control service layer, an equipment layer and a data storage layer, wherein the control service layer is used for receiving a service request of the client and judging whether the service request needs to access the data storage layer; the device layer is used for responding to a service request sent by the control service layer; the data storage layer is used for storing data on the server; the cloud control platform is further connected with a cloud development platform.

In summary, the invention mainly has the following beneficial effects:

the workshop peak staggering and scheduling system based on the Internet of things can comprehensively acquire various information and improve peak staggering and scheduling capacity, basic information can be acquired through a basic data acquisition end, a basic data storage end and a basic data maintenance end by utilizing a bill of material management module, a tool management module, an equipment management module, a scheduling management module and a basic information management module which are connected with a cloud control platform, the number, the category and the state information of tools are acquired by depending on the tool management module, equipment information is acquired by depending on an equipment monitor and a central control feedback device in the equipment management module, and the peak staggering and scheduling can be realized by depending on a work order schedule generation unit, a process schedule generation unit, a delivery schedule generation unit, a stock preparation schedule generation unit and a capacity load analysis unit in the scheduling management module.

Drawings

FIG. 1 is a system block diagram of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Examples

Referring to fig. 1, the workshop peak staggering scheduling system based on the internet of things comprises a cloud control platform, wherein the cloud control platform is connected with a bill of material management module, a tool management module, an equipment management module, a scheduling management module and a basic information management module, the basic information management module comprises a basic data acquisition end, a basic data storage end and a basic data maintenance end, the tool management module is used for acquiring the number, the category and the state information of tools, the equipment management module comprises an equipment monitor and a central control feedback device, after the equipment monitor receives a sent information verification request, verification information to be verified is carried in the information verification request of the equipment monitor, the central control feedback device performs corresponding verification processing according to the verification information to obtain a verification result, and if the verification result is that the verification passes, the central control feedback device performs encrypted signature processing on the acquired multimedia source information; the central control feedback device sends the multimedia source information after encrypted signature processing to the equipment monitor, the equipment monitor detects the equipment state and sends the equipment information to the central control feedback device, and the scheduling management module comprises a work order schedule generation unit, a process schedule generation unit, a delivery schedule generation unit, a stock schedule generation unit and a capacity load analysis unit.

The bill of material management module is connected with a bill of material server, the bill of material server comprises a sales management information management and control subunit, a purchase management information management and control subunit, a simulation production information management and control subunit, a finished product bill of material database and a storage information database which are connected with one another, the bill of material server is connected with a personal terminal and a company terminal, and the personal terminal and the company terminal are in wireless communication connection with the bill of material server.

The algorithms applied by the basic information management module comprise an AI algorithm, a list combining and splitting algorithm, a heuristic algorithm and a genetic algorithm.

The basic data acquisition end is an information acquisition device, and the basic data storage end performs distributed storage on basic data information at a cloud end to obtain a distributed storage database; the basic data maintenance end is connected with the basic data storage end, and when the query instruction of the user is obtained, basic data information is extracted from the distributed storage database; and matching the basic data information at the terminal to obtain target basic data.

The work order schedule generation unit comprises a typesetting subunit and a part production schedule production unit, wherein the typesetting subunit binds the typesetting drawing number and the part information and summarizes the typesetting drawing number and the part information into an intermediate table; the typesetting subunit sends the intermediate table to the ERP; and the ERP automatically generates a part production plan according to the production progress, converts part information into a production plan table according to the intermediate table, and sends the production plan table to the processing equipment.

The tool management module comprises a tool purchasing unit, a tool statistical unit, a tool scheduled inspection unit, a tool scheduled maintenance unit, a tool repair unit and a tool scrap management unit, wherein the tool purchasing unit is used for acquiring tool purchasing information and generating a purchasing form, the tool statistical unit is used for acquiring the number form of the total tool, the tool scheduled inspection unit is used for counting the number form of the scheduled inspection tool, the tool scheduled maintenance unit is used for counting the number of the tools in a scheduled maintenance period and exceeding the scheduled maintenance period, the tool repair unit is used for receiving tool repair information, and the tool scrap management unit is used for acquiring specific door types and the number of the scrapped tools.

The scheduling management module further comprises a production order module, a commissioning preparation module and a production module, wherein the production order module manages production order data, the commissioning preparation module verifies commissioning preparation conditions according to order requirements of the production order module, and the production module manages scheduling progress states of the production orders.

The cloud control platform is connected with a verification server, and the verification server is used for verifying identification information of a login cloud control platform; the cloud control platform is connected with a data acquisition control system and an execution unit control system; the cloud control platform further comprises a control service layer, an equipment layer and a data storage layer, wherein the control service layer is used for receiving the service request of the client and judging whether the service request needs to access the data storage layer; the device layer is used for responding to a service request sent by the control service layer; the data storage layer is used for storing data on the server; the cloud control platform is further connected with a cloud development platform.

The workshop peak staggering and scheduling system based on the Internet of things can comprehensively acquire various information and improve peak staggering and scheduling capacity, basic information can be acquired through a basic data acquisition end, a basic data storage end and a basic data maintenance end by utilizing a bill of material management module, a tool management module, an equipment management module, a scheduling management module and a basic information management module which are connected with a cloud control platform, the number, the category and the state information of tools are acquired by means of the tool management module, equipment information is acquired by means of an equipment monitor and a central control feedback device in the equipment management module, and peak staggering and scheduling items are realized by means of a work order schedule generation unit, a process schedule generation unit, a delivery schedule generation unit, a stock preparation schedule generation unit and a capacity load analysis unit in the scheduling management module.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. Workshop peak shifting scheduling system based on thing networking, its characterized in that: the cloud control platform is connected with a bill of material management module, a tool management module, an equipment management module, a production scheduling management module and a basic information management module, wherein the basic information management module comprises a basic data acquisition end, a basic data storage end and a basic data maintenance end, the tool management module is used for acquiring the number, the category and the state information of tools, the equipment management module comprises an equipment monitor and a central control feedback device, after the equipment monitor receives a sent information verification request, the information verification request of the equipment monitor carries verification information to be verified, the central control feedback device carries out corresponding verification processing according to the verification information to obtain a verification result, and if the verification result is that verification passes, the central control feedback device carries out encryption signature processing on the acquired multimedia source information; the central control feedback device sends the multimedia source information after encrypted signature processing to the equipment monitor, the equipment monitor detects the equipment state and sends the equipment information to the central control feedback device, and the scheduling management module comprises a work order schedule generation unit, a process schedule generation unit, a delivery schedule generation unit, a stock schedule generation unit and a capacity load analysis unit.

2. The workshop off-peak scheduling system based on the Internet of things of claim 1, wherein: the bill of material management module is connected with a bill of material server, the bill of material server comprises a sales management information control subunit, a purchase management information control subunit, a simulation production information control subunit, a finished product bill of material database and a storage information database which are connected with one another, the bill of material server is connected with a personal terminal and a company terminal, and the personal terminal and the company terminal are in wireless communication connection with the bill of material server.

3. The workshop peak shifting and production scheduling system based on the Internet of things of claim 1, wherein: the algorithms applied by the basic information management module comprise an AI algorithm, a list combining and splitting algorithm, a heuristic algorithm and a genetic algorithm.

4. The workshop peak shifting and production scheduling system based on the Internet of things of claim 1, wherein: the basic data acquisition end is an information acquisition device, and the basic data storage end performs distributed storage on basic data information at the cloud end to obtain a distributed storage database; the basic data maintenance end is connected with the basic data storage end, and when a query instruction of a user is obtained, basic data information is extracted from the distributed storage database; and matching the basic data information at the terminal to obtain target basic data.

5. The workshop off-peak scheduling system based on the Internet of things of claim 1, wherein: the work order schedule generation unit comprises a typesetting subunit and a part production schedule production unit, wherein the typesetting subunit binds the typesetting drawing number and the part information and summarizes the typesetting drawing number and the part information into an intermediate table; the typesetting sub-unit sends the intermediate table to ERP; and the ERP automatically generates a part production plan according to the production progress, converts part information into a production plan table according to the intermediate table, and sends the production plan table to the processing equipment.

6. The workshop off-peak scheduling system based on the Internet of things of claim 1, wherein: the frock management module includes that frock purchase unit, frock statistical unit, frock examine unit, frock surely guarantor unit, frock repair unit and frock scrap the management unit, frock purchase unit is used for acquireing frock purchase information and generates the purchase form, frock statistical unit is used for acquireing the figure form of total frock, the frock examines the unit surely and is used for the number form of statistics examining the frock surely, the frock is surely guarantor the unit is used for making statistics of the frock figure that is in and surpasss and surely guarantor the time surely, frock repair unit is used for receiving the frock and reports information of repairment, the frock is scrapped the management unit and is used for acquireing concrete door type and the figure of scrapping the frock.

7. The workshop peak shifting and production scheduling system based on the Internet of things of claim 1, wherein: the scheduling management module further comprises a production order module, a commissioning preparation module and a production module, wherein the production order module manages production order data, the commissioning preparation module verifies commissioning preparation conditions according to order requirements of the production order module, and the production module manages scheduling progress states of the production orders.

8. The workshop peak shifting and production scheduling system based on the Internet of things of claim 1, wherein: the cloud control platform is connected with a verification server, and the verification server is used for verifying identification information of a login cloud control platform; the cloud control platform is connected with a data acquisition control system and an execution unit control system; the cloud control platform also comprises a control service layer, an equipment layer and a data storage layer, wherein the control service layer is used for receiving a service request of the client and judging whether the service request needs to access the data storage layer; the device layer is used for responding to a service request sent by the control service layer; the data storage layer is used for storing data on the server; the cloud control platform is further connected with a cloud development platform.

Images