JPWO2020230345A1 - Production control system, production control equipment, production control method and program - Google Patents

Abstract

When the processing planning unit (15) of the production control device (1) of the production control system (100) determines that there are a plurality of processing equipments (4) to be calculated that are capable of executing the assigned process and are in operation, the average working time The calculation unit (12) calculates the average working time for each processing facility (4) to be calculated based on the production record information. The moving time calculation unit (13) calculates the moving time of the transfer device (2) to the processing equipment 4 for each processing equipment (4) to be calculated. The scheduled completion time calculation unit (14) calculates the scheduled completion time of the work for each processing facility (4) to be calculated based on the average work time, the travel time, and the processable time. The processing planning unit (15) allocates the process to the processing equipment (4) having the earliest scheduled completion time, and transmits the transfer information indicating the processing equipment (4) to which the process is assigned to the transfer management device (3). The transport management device (3) transmits a movement instruction for transporting the input product to the process to the processing equipment (4) indicated by the transport information to the transport device (2).

Description

The present invention relates to a production control system, a production control device, a production control method and a program.

In recent years, the idea of just-in-time has become widespread in the manufacturing industry, and PULL type production has become more mainstream than PUSH type production. In the PULL type production method, how quickly the parts and work-in-process to be put into the processing equipment for processing and assembling the produced products are transported to the processing equipment is important for improving the production efficiency. Hereinafter, parts, work-in-process, etc. to be put into processing equipment are referred to as input products. As a technique for automatically transporting an input product to a processing facility using a transport device, Patent Document 1 discloses a product transport system that moves the transport device to the processing facility at a scheduled delivery time of the processing facility. ing.

JP-A-2007-185758

In the technique described in Patent Document 1, in the processing equipment, the scheduled delivery time of the work-in-process and the actual delivery time are set due to reprocessing due to the work-in-process deviating from the tolerance, a short stop caused by aging, and the like. It may shift. If the scheduled delivery time of the work-in-process and the actual delivery time deviate from each other, the transport device will wait for the work-in-process to be carried out, resulting in a decrease in production efficiency. Further, if the processing equipment for executing the next process is being reprocessed or stopped, the transfer device will wait for the input product to be input, and the production efficiency will be lowered.

The present invention has been made in view of the above-mentioned problems, a plurality of processing equipments for executing a plurality of processes for producing a product, and a plurality of transports for transporting an input product to the processing equipment. The purpose is to improve the production efficiency at the production site having the equipment.

In order to achieve the above object, the production control system according to the present invention includes a plurality of processing equipments, a plurality of transport devices, a transport control device, and a production control device. The plurality of processing facilities each execute a plurality of processes for producing a product. The plurality of transport devices transport the input products to the processing equipment. The transport management device instructs the transport device to transport the input product. The production control device allocates the process to the processing equipment. The production control device includes a storage unit, a determination unit, an average work time calculation unit, a movement time calculation unit, a scheduled completion time calculation unit, a process allocation unit, and a transportation information transmission unit. The storage unit stores production record information including the past actual working hours of the processing equipment. For the process to be assigned, the determination unit determines whether or not there are a plurality of processing facilities to be calculated that can execute the process and are in operation. When there are a plurality of processing facilities to be calculated, the average working time calculation unit calculates the average working time, which is the average of the past actual working hours for each processing facility to be calculated, based on the production record information. The moving time calculation unit calculates the moving time of the transfer device to the processing equipment for each processing equipment to be calculated when there are a plurality of processing equipments to be calculated. The scheduled completion time calculation unit calculates the scheduled completion time of the work for each processing facility to be calculated based on the average working time, the moving time, and the processable time when the processing facility to be calculated can execute the process. .. The process allocation unit allocates the process to the processing equipment with the earliest scheduled completion time. The transfer information transmission unit transmits transfer information indicating the processing equipment to which the process allocation unit has assigned the process to the transfer management device. The transport management device transmits to the transport device a movement instruction for transporting the input product to the process to the processing equipment indicated by the transport information received from the production control device.

According to the present invention, in a production site having a plurality of processing equipments for executing a plurality of processes for producing a product, and a plurality of transporting devices for transporting input products to the processing equipment, the past of the processing equipment. The production efficiency can be improved by allocating the process to the processing equipment having the earliest scheduled completion time based on the average working time, the moving time of the transfer device to the processing equipment, and the processable time of the processing equipment.

The figure which shows the structure of the production control system which concerns on Embodiment 1 of this invention. The figure which shows the example of the progress information which concerns on Embodiment 1. The figure which shows the example of the product information which concerns on Embodiment 1. The figure which shows the example of the transfer apparatus position information which concerns on Embodiment 1. A flowchart showing a production control process executed by the production control device according to the first embodiment. A flowchart showing a stop response process executed by the production control device according to the first embodiment. A flowchart showing a recovery response process executed by the production control device according to the first embodiment. The figure which shows the structure of the production control system which concerns on Embodiment 2 of this invention. The figure which shows the example of the progress information which concerns on Embodiment 2. The figure which shows the structure of the production control system which concerns on Embodiment 3 of this invention. A flowchart showing a movement speed setting process executed by the transport management device according to the third embodiment. A flowchart showing a movement speed resetting process executed by the transport management device according to the third embodiment. The figure which shows an example of the hardware composition of the production control apparatus which concerns on Embodiments 1 and 2.

Hereinafter, the production control system, the production control device, the production control method, and the program according to the embodiment of the present invention will be described in detail with reference to the drawings. The same or corresponding parts in the drawings are designated by the same reference numerals. In this embodiment, an example will be described in which a processing facility is provided for each of a plurality of processes for manufacturing a product, and the transfer device applies the input product to the processing facility. The product is an example of a product. A factory is an example of a production site.

(Embodiment 1)
As shown in FIG. 1, the production control system 100 transfers the input product to the production control device 1 that allocates the processing equipment 4 to the process of manufacturing the product, the transfer device 2 that transports the input product, and the transfer device 2. It is provided with a transport management device 3 for instructing, a processing equipment 4 for processing an input product, and a manufacturing start instruction tool 5 for instructing the start of production of a product. The input products are parts, work-in-process, etc. to be input to the processing equipment 4. The processing performed by the processing equipment 4 includes assembling the product.

The transport device 2 is associated with either a stock area provided in a storage facility for storing parts that have arrived in the factory or a stock area provided in each processing facility 4. Waiting for loading of input products in the associated stock area. Hereinafter, the stock area associated with the transport device 2 is referred to as a standby stock area. In each stock area, for example, an automatic machine such as an industrial robot or a belt conveyor is used for loading the input product into the transport device 2 and loading the input product from the transport device 2 into the processing equipment 4. Hereinafter, automatic machines such as industrial robots and belt conveyors will be referred to as loading / unloading machines.

When the loaded product is loaded by the loading / loading machine, the transport device 2 transports the loaded product to the stock area instructed by the transport management device 3. The transfer device 2 waits for the input to the processing equipment 4 in the stock area of the transfer destination. The transport device 2 returns to the standby stock area when the input of the input product to the processing equipment 4 is completed. Further, the transport device 2 has a function capable of acquiring a current position such as GPS (Global Positioning System), and stores current position information indicating its own current position. The transport device 2 periodically transmits the current position information to the transport management device 3.

The transport management device 3 indicates a storage facility or processing facility 4 provided with a transport device code that identifies the transport device 2 and a stock area in which the transport device 2 stands by in the current position information received from each transport device 2. The transfer device position information in which the code and the loading flag indicating whether or not the input product is loaded is associated with the code is transmitted to the production control device 1. When the transfer device 2 is located outside the stock area, the equipment code is not included in the transfer device position information. The method by which the transport management device 3 determines whether or not the input product is loaded on the transport device 2 will be described later.

The processing equipment 4 stores processing plan information indicating a schedule of processing for one day. The processing equipment 4 executes the processing process according to the schedule indicated by the processing plan information. In the production control system 100, there is one or more processes in which two or more processing facilities 4 capable of executing the same process exist.

In the production control system 100, a serial number is assigned to each production of one unit of product. One unit to which the serial number is given is, for example, one lot. In addition, the production of one unit of product, that is, the production of product for each serial number, shall be completed within one day if the work is performed within the standard preparation time and the standard working time. In addition, a daily production plan is determined that indicates the production order of the serial numbers of the products manufactured on that day. The production control device 1 allocates each process of manufacturing the product with the serial number to the processing facility 4 according to the manufacturing order of the production plan. The order of the processes assigned to the processing equipment 4 follows the work order.

A case where the production control device 1 allocates the manufacturing process of the product having the manufacturing number XXX001, which has the first manufacturing order, to the processing equipment 4 will be described. First, the preparation for the first process of serial number XXX001 is prepared at the timing when the parts required for the first process of serial number XXX001 arrive in the factory, the timing when the kitting work of the parts required for the first process is completed, and the like. The ready-to-use information indicating the completion is input to the manufacturing start instruction tool 5. It may be the user or another system that inputs the preparation completion information into the manufacturing start instruction tool 5.

The manufacturing start instruction tool 5 sets the date on which the preparation completion information of the serial number XXX001 is input as the start instruction date of the serial number XXX001. The manufacturing start instruction tool 5 transmits the manufacturing start information including the serial number XXX001, the model code for identifying the model of the product to be manufactured, and the start instruction date to the production control device 1. The user or another system may be configured to directly input the serial number XXX001, the model code for identifying the model of the product to be manufactured, and the preparation completion information into the production control device 1. In this case, the production control system 100 does not have to include the manufacturing start instruction tool 5.

The production management device 1 calculates the movement time of the storage unit 11 that stores various information, the average work time calculation unit 12 that calculates the past average work time of the processing equipment 4, and the transfer device 2 to the processing equipment 4. The moving time calculation unit 13, the scheduled completion time calculation unit 14 for calculating the scheduled completion time of the work in the processing equipment 4, the processing planning unit 15 for allocating the process to the processing equipment 4, and the information management unit 16 for managing various information. And.

The storage unit 11 includes product information related to manufacturing for each model of the product, progress information indicating the progress of manufacturing the product for each serial number, processing facility position information indicating the position of the stock area of each processing facility 4, and manufacturing for each serial number. It stores manufacturing performance information that shows the performance and production planning information that shows the daily production plan. Further, the information management unit 16 stores the transfer device position information received from the transfer management device 3 in the storage unit 11. Product information is an example of product information. The manufacturing record information is an example of the production record information.

As shown in FIG. 2, the progress information stored in the storage unit 11 includes a serial number, a model code of the product to be manufactured, a manufacturing start date indicating the date when the manufacturing of the product is started, and a process code indicating each process of manufacturing the product. , The equipment code indicating the processing equipment 4 that executes each process, and the actual working time of the processing equipment 4 that executes each process.

When the information management unit 16 receives the manufacturing start information of the manufacturing start number XXX001 from the manufacturing start instruction tool 5, the information management unit 16 records the start instruction date indicated by the manufacturing start information on the manufacturing start date of the progress information of the manufacturing number XXX001 stored in the storage unit 11. Then, record the model code indicated by the manufacturing start information in the model code of the product to be manufactured. In the example of FIG. 2, the model code of the product manufactured by the serial number XXX001 is MD0001, and the manufacturing start date is 2019/04/01.

In the case of a configuration in which the serial number XXX001, the model code that identifies the model of the product to be manufactured, and the preparation completion information are directly input to the production control device 1, the information management unit 16 sets the date on which the preparation completion information is input. , The progress information of the serial number XXX001 stored in the storage unit 11 is recorded on the manufacturing start date, and the model code indicated by the manufacturing start information is recorded in the model code of the product to be manufactured.

As shown in FIG. 3, the product information stored in the storage unit 11 includes a model code indicating the model of the product, a process code indicating each process of manufacturing the product, and an equipment code indicating the processing equipment 4 capable of executing each process. It includes a calculation target flag indicating the operation / stop of each processing equipment 4, and a processable time which is a time when each processing equipment 4 can execute a process. When the calculation target flag is "0", the processing equipment 4 is in operation. When the calculation target flag is "1", the processing equipment 4 is stopped. The processable time is, that is, the time when the processing schedule of each processing facility 4 is free.

When the information management unit 16 records the model code in the progress information of the serial number XXX001, the information management unit 16 refers to the product information of the same model code stored in the storage unit 11 and sets the process code indicating each process of manufacturing the product as the serial number XXX001. Record in the progress information of. In the example of FIG. 2, the process codes indicating each process for manufacturing the product whose model code is MD0001 are P0001, P0002, and P0003.

When the model code of the product to be manufactured is recorded in the progress information of the serial number XXX001, the machining planning unit 15 reads the product information of the same model code from the storage unit 11. In the example of FIG. 2, since the model code of the product to be manufactured recorded in the progress information of the serial number XXX001 is MD0001, the machining planning unit 15 reads out the product information of the model code MD0001 shown in FIG. It is determined whether or not there are a plurality of processing facilities 4 that can execute the first step of the serial number XXX001 and are in operation. Hereinafter, the processing equipment 4 in which the assigned process can be executed and is in operation is referred to as the processing equipment 4 to be calculated in the process. Whether or not there are a plurality of processing equipments 4 to be calculated for the process to be assigned may be determined by acquiring information indicating a feasible process from the processing equipment 4 and monitoring the stoppage / operation of the processing equipment 4. .. The processing planning unit 15 is an example of a determination unit.

When there are a plurality of processing equipments 4 to be calculated in the first process, the processing planning unit 15 causes the average working time calculation unit 12, the moving time calculation unit 13, and the scheduled completion time calculation unit 14 to process the processing target to be calculated in the first process. Send the equipment code of equipment 4. In the example of FIG. 3, the first step of manufacturing the product of serial number XXX001 is the step of process code P0001. The processing equipment 4 whose process code is P0001 and whose calculation target flag is 0 has three equipment codes, F002, F005, and F010. The processing planning unit 15 sends the equipment codes F002, F005, and F010 of the processing equipment 4 to be calculated in the first process to the average working time calculation unit 12, the moving time calculation unit 13, and the scheduled completion time calculation unit 14.

When there is only one processing equipment 4 to be calculated for the first process, the processing planning unit 15 assigns the first process of the serial number to the processing equipment 4. Assigning a process to the processing equipment 4 specifically means adding the process of the serial number to the schedule indicated by the processing plan information stored in the processing equipment 4. The processing planning unit 15 is an example of a process allocation unit. The processing planning unit 15 employs a transport device 2 that transports the input product to the processing equipment 4 to which the first process is assigned. When there is only one transfer device 2 waiting in the stock area of the storage facility, the processing planning unit 15 adopts the transfer device 2. When there are a plurality of transfer devices 2 on standby, the machining planning unit 15 may be adopted at random, for example, or may be adopted in the order of the transfer device code. When there is no waiting transfer device 2, the machining planning unit 15 causes the movement time calculation unit 13 to calculate the movement time for returning from the current position of the transfer device 2 to the stock area of the storage equipment, and the movement time is the shortest. The transport device 2 of the above is adopted. The processing planning unit 15 transmits the transfer information including the equipment code of the processing equipment 4 to which the first process is assigned and the transfer device code of the adopted transfer device 2 to the transfer management device 3. The processing planning unit 15 is an example of a transport information transmitting unit.

The manufacturing record information stored in the storage unit 11 is progress information of the manufacturing number at which the manufacturing of the product is completed, and is the manufacturing number, the model code of the manufactured product, the manufacturing start date indicating the date when the manufacturing of the product is started, and the product. Includes a process code indicating each process of manufacturing, an equipment code indicating the processing equipment 4 that executed each process, and an actual working time of the process executed by the processing equipment 4.

When the average working time calculation unit 12 receives the equipment code of the processing equipment 4 to be calculated in the first process from the processing planning unit 15, the production start date is in the calculation target period before the production start date of the progress information of the serial number XXX001. Read out the manufacturing record information of the same model code as the product with the serial number XXX001. The calculation target period is an arbitrary period. The calculation target period may be the same for all products or may be different for each model. If it differs for each model of the product, the product information may include information indicating the calculation target period, and the average working time calculation unit 12 may refer to this.

Here, the calculation target period is one month. In the example of FIG. 2, since the production start date is 2019/04/01, the average working time calculation unit 12 has the product with the serial number XXX001 having the production start date from 2019/03/01 to 2019/04/01. Reads out the manufacturing record information of MD0001 having the same model code as.

The average working time calculation unit 12 calculates the average working time, which is the average value of the actual working time for each processing facility 4 to be calculated in the first process included in the read manufacturing record information. The average work time calculation unit 12 sends the average work time information indicating the average work time for each processing facility 4 to be calculated in the first process to the scheduled completion time calculation unit 14.

The processing equipment position information stored in the storage unit 11 includes an equipment code indicating the processing equipment and installation position information indicating the position of the stock area of the processing equipment. As shown in FIG. 4, the transfer device position information includes a transfer device code that identifies the transfer device 2, position information that indicates the current position of the transfer device 2, and an equipment code that indicates equipment provided with a stock area in which the transfer device stands by. , And a loading flag indicating whether or not the input is loaded.

When the loading flag is "0", the input product is not loaded on the transfer device 2. When the loading flag is "1", the input product is loaded on the transport device 2. In the example of FIG. 4, the transport device 2 having the transport device codes AGV001, AGV002 and AGV003 is waiting for loading of the input product in the stock area of the storage facility whose equipment code is W001. The input items loaded in the stock area of the storage equipment are the parts required for the first process. The transport device 2 whose transport device codes are AGV005 and AGV006 is waiting for loading of input products in the stock area of the processing facility 4 whose equipment code is F001. The input product loaded in the stock area of the processing equipment 4 is a work-in-process processed by the processing equipment 4. The transport device code AGV004 is being transported and is located outside the stock area. The transport device code AGV007 is on the way back to the standby stock area and is located outside the stock area. The transport device 2 having the transport device code AGV008 is waiting for the input product to be loaded into the processing facility 4 in the stock area of the processing facility 4 having the equipment code F003.

When the moving time calculation unit 13 receives the equipment code of the processing equipment 4 to be calculated in the first process from the processing planning unit 15, the processing including the equipment code of the processing equipment 4 to be calculated in the first process is included in the storage unit 11. The equipment position information and the transfer device position information including the equipment code of the storage equipment are read out. The moving time calculation unit 13 calculates the shortest path from the stock area of the storage equipment to the stock area of the processing equipment 4 to be calculated in the first process based on the read out processing equipment position information and the transfer device position information. Existing technology is used to calculate the shortest path. The travel time calculation unit 13 calculates the travel time of the transport device 2 for each processing facility 4 to be calculated in the first process by dividing the distance of the shortest path by the travel speed of the transport device 2.

When there is only one transfer device 2 waiting in the stock area of the storage facility, the movement time calculation unit 13 adopts the transfer device 2. When there are a plurality of transfer devices 2 on standby, the movement time calculation unit 13 may be adopted at random, for example, or may be adopted in the order of the transfer device code. When there is no waiting transfer device 2, the moving time calculation unit 13 adopts the transfer device 2 having the shortest moving time to return from the current position of the transfer device 2 to the stock area of the storage facility. The moving time calculation unit 13 completes the scheduled completion time calculation unit 14 for the moving time of the transfer device 2 and the moving time information indicating the transfer device code of the adopted transfer device 2 for each processing equipment 4 to be calculated in the first process. Send to.

If the shortest path from each stock area to the stock area of each processing facility 4 and the moving speed of the transport device 2 are determined, the moving time is calculated in advance and the transport device 2 of each stock area is calculated. The storage unit 11 may store the reference movement time information indicating the movement time from the position where the is waiting to the position of each processing facility 4. In this case, the movement time calculation unit 13 calculates the movement time of the transfer device 2 for each processing facility 4 to be calculated in the first process with reference to the reference movement time information stored in the storage unit 11. The movement time calculation unit 13 may acquire information indicating the transport device 2 waiting for loading of the input product in the stock area where the input product is loaded from an external device or system, or accepts input from the user. You may. Alternatively, the storage unit 11 stores the transfer device information indicating the transfer device 2 associated with each stock area, and the movement time calculation unit 13 stores the processing plan based on the transfer device information and the reference movement time information. Regarding the transport device 2 of the transport device code included in the transport information transmitted by the unit 15 to the transport management device 3, the input product is transported to the processing equipment 4 of the equipment code included in the transport information and returned to the standby stock area. During the time, it may be configured to be excluded from the candidates of the transfer device 2 to be adopted.

When the scheduled completion time calculation unit 14 receives the equipment code of the processing equipment 4 to be calculated in the first process from the processing planning unit 15, the storage unit 11 includes the equipment code of the processing equipment 4 to be calculated in the first process. Read product information. The scheduled completion time calculation unit 14 is a calculation target of the first process included in the average work time information received from the average work time calculation unit 12, the travel time information received from the travel time calculation unit 13, and the read product information. Based on the processable time of the processing equipment 4, the scheduled completion time for completing the work is calculated for each processing equipment 4 to be calculated in the first process. The processable time of the processing equipment 4 to be calculated may be calculated from the processing plan information of the processing equipment 4.

Specifically, the scheduled completion time calculation unit 14 moves the transport device 2 to the current time when the time obtained by adding the travel time of the transport device 2 to the current time exceeds the processable time of the processing facility 4. The time obtained by adding the average working time of the processing facility 4 to the time obtained by adding the time is calculated as the scheduled completion time. If the time obtained by adding the moving time of the transport device 2 to the current time does not exceed the processable time of the processing facility 4, the scheduled completion time calculation unit 14 sets the processing facility at the processable time of the processing facility 4. The time obtained by adding the average working hours of 4 is calculated as the scheduled completion time. The scheduled completion time calculation unit 14 sends the scheduled completion time information indicating the scheduled completion time and the transport device code of the adopted transport device 2 to the machining planning unit 15 for each processing facility 4 to be calculated in the first process.

When the processing planning unit 15 receives the scheduled completion time information from the scheduled completion time calculation unit 14, the processing planning unit 15 assigns the first process of the serial number XXX001 to the processing equipment 4 having the earliest scheduled completion time. When there are a plurality of processing facilities 4 having the same scheduled completion time, the processing planning unit 15 assigns the first process of the serial number XXX001 to the processing equipment 4 having the latest start date and time. When there are a plurality of processing equipments 4 having the same scheduled completion time and start-up date and time, the processing planning unit 15 determines that the processing equipment 4 having the shortest movement time of the transfer device 2 to the processing equipment 4 has the first serial number XXX001. Allocate the process of. When there are a plurality of processing equipments 4 having the same scheduled completion time, start-up date and time, and movement time of the transfer device 2, the processing planning unit 15 determines that the processing equipment 4 having the smallest equipment code number is the first of the serial numbers XXX001. Allocate the process of. The start-up date and time of the processing equipment 4 may be included in the product information, for example, or the storage unit 11 may store information indicating the start-up date and time of each processing equipment 4.

The processing planning unit 15 transmits transfer information including the serial number XXX001, the equipment code of the processing equipment 4 to which the first process is assigned, and the transfer device code of the adopted transfer device 2 to the transfer management device 3. The processing planning unit 15 is an example of a transport information transmitting unit.

Upon receiving the transfer information, the transfer management device 3 transmits a move instruction instructing the adopted transfer device 2 to move to the stock area of the processing equipment 4 to which the first step of the serial number XXX001 is assigned. Further, the transport management device 3 transmits the transport device code and the serial number XXX001 of the adopted transport device 2 to the loading / unloading machine in the stock area of the storage facility. Alternatively, the movement instruction may include the serial number XXX001, and the transport device 2 that has received the movement instruction may notify the loading / unloading machine of the serial number XXX001.

The loading / unloading machine loads the parts necessary for the first step of manufacturing the product having the serial number XXX001 on the adopted transfer device 2. When the parts required for the first process of manufacturing the product of serial number XXX001 are loaded in the transfer device 2, the processing facility 4 is assigned the first process of serial number XXX001 according to the movement instruction from the transfer control device 3. Move to the stock area of.

The transport management device 3 departs from the stock area where the transport device 2 that has transmitted the movement instruction is currently located, arrives at the stock area of the processing equipment 4 at the transport destination, and then departs toward the standby stock area. It is determined that the input product is loaded on the device 2. Alternatively, the transport device 2 may transmit the load information indicating whether or not the input product is loaded to the transport management device 3 together with the current position information.

The processing planning unit 15 of the production control device 1 sends the equipment code of the processing equipment 4 to which the first process of the serial number XXX001 is assigned and the scheduled completion time information to the information management unit 16. The information management unit 16 records the equipment code received from the processing planning unit 15 in the equipment code indicating the processing equipment 4 that executes the first step of the progress information of the serial number XXX001 stored in the storage unit 11. In the example of FIG. 2, F002 is recorded in the equipment code of the process whose process code is P0001, which is the first process of the serial number XXX001. The information management unit 16 sets the scheduled completion time indicated by the received scheduled completion time information at the processable time of the processing equipment 4 to which the first process of the serial number XXX001 is assigned, which is included in the product information stored in the storage unit 11. Record. In the example of FIG. 3, 13:55:30 is recorded at the processable time of the processing equipment 4 having the equipment code F002.

Each time the work is completed, the processing equipment 4 transmits the completion information indicating the serial number and the completion of the work to the production control device 1. The information management unit 16 of the production control device 1 calculates the actual working time of the first process executed by the processing equipment 4 based on the completion information received from the processing equipment 4, and the serial number XXX001 stored in the storage unit 11. Record the progress information in the actual work time of the first process. In the example of FIG. 2, 00:05:30 is recorded in the actual working time when the process code of the serial number XXX001 is P0001 and the equipment code is F002.

When the actual working time of the processing equipment 4 in the first process is recorded in the progress information of the serial number XXX001, the machining planning unit 15 calculates the calculation target of the second process of the serial number XXX001 based on the read product information. It is determined whether or not there are a plurality of processing facilities 4 of the above. When there is only one processing facility 4 to be calculated for the second process, the processing planning unit 15 assigns the second process having the serial number XXX001 to the processing equipment 4. The processing planning unit 15 transmits the transfer information including the equipment code of the processing equipment 4 to which the second process is assigned and the transfer device code of the adopted transfer device 2 to the transfer management device 3. When there are a plurality of processing equipments 4 to be calculated in the second process, the processing planning unit 15 causes the average working time calculation unit 12, the moving time calculation unit 13, and the scheduled completion time calculation unit 14 to calculate the second process. Send the equipment code of the processing equipment 4 of.

When the average working time calculation unit 12 receives the equipment code of the processing equipment 4 to be calculated in the second process from the processing planning unit 15, the processing equipment 4 to be calculated in the second process included in the read manufacturing record information. Calculate the average working time for each. The average work time calculation unit 12 sends the average work time information indicating the average work time for each processing facility 4 to be calculated in the second process to the scheduled completion time calculation unit 14.

When the moving time calculation unit 13 receives the equipment code of the processing equipment 4 to be calculated in the second process from the processing planning unit 15, the storage unit 11 inputs the equipment code of the processing equipment 4 to be calculated in the second process. The including processing equipment position information and the transfer device position information including the equipment code of the processing equipment 4 to which the first process is assigned are read out. The moving time calculation unit 13 is based on the read processing equipment position information and the transfer device position information, and the stock area of the processing equipment 4 to be calculated from the second process from the stock area of the processing equipment 4 to which the first process is assigned. Calculate the shortest route to. The travel time calculation unit 13 calculates the travel time of the transport device 2 for each processing facility 4 to be calculated in the second process by dividing the distance of the shortest path by the travel speed of the transport device 2.

When there is one transfer device 2 waiting in the stock area of the processing equipment 4 to which the first process is assigned, the movement time calculation unit 13 adopts the transfer device 2. When there are a plurality of transfer devices 2 on standby, the movement time calculation unit 13 may be adopted at random, for example, or may be adopted in the order of the transfer device code. When there is no waiting transfer device 2, the moving time calculation unit 13 has the shortest moving time to return from the current position of the transfer device 2 to the stock area of the processing equipment 4 to which the first process is assigned. Is adopted. The moving time calculation unit 13 completes the scheduled completion time calculation unit 14 with the moving time of the transport device 2 for each processing facility 4 to be calculated in the second process and the moving time information indicating the transport device code of the adopted transport device 2. Send to.

When the scheduled completion time calculation unit 14 receives the equipment code of the processing equipment 4 to be calculated in the second process from the processing planning unit 15, the equipment code of the processing equipment 4 to be calculated in the second process is received from the storage unit 11. Read product information including. The scheduled completion time calculation unit 14 calculates the average work time information received from the average work time calculation unit 12, the travel time information received from the travel time calculation unit 13, and the calculation target of the second process included in the read product information. Based on the processable time of the processing equipment 4 of the above, the scheduled completion time at which the work is completed is calculated for each processing equipment 4 to be calculated in the second process. The scheduled completion time calculation unit 14 sends the scheduled completion time information indicating the scheduled completion time and the transport device code of the adopted transport device 2 to the machining planning unit 15 for each processing facility 4 to be calculated in the second process. ..

When the processing planning unit 15 receives the scheduled completion time information from the scheduled completion time calculation unit 14, the processing planning unit 15 assigns the second process of the serial number XXX001 to the processing equipment 4 having the earliest scheduled completion time. The processing planning unit 15 transmits transfer information including the serial number XXX001, the equipment code of the processing equipment 4 to which the second process is assigned, and the transfer device code of the adopted transfer device 2 to the transfer management device 3.

Upon receiving the transport information, the transport management device 3 transmits a move instruction instructing the adopted transport device 2 to move to the stock area of the processing equipment 4 to which the second step of the serial number XXX001 is assigned. The transport management device 3 transmits the transport device code of the adopted transport device 2 and the serial number XXX001 to the loading / unloading machine in the stock area of the processing equipment 4 to which the first process of the serial number XXX001 is assigned. The loading / loading machine loads the work-in-process of the product having the serial number XXX001 on the adopted transfer device 2. When the work-in-process of the product of serial number XXX001 is loaded, the transfer device 2 moves to the stock area of the processing equipment 4 to which the second process of serial number XXX001 is assigned.

The processing planning unit 15 sends the equipment code of the processing equipment 4 to which the second process of the serial number XXX001 is assigned and the scheduled completion time information to the information management unit 16. The information management unit 16 records the equipment code received from the processing planning unit 15 in the progress information of the serial number XXX001 stored in the storage unit 11 and in the equipment code indicating the processing equipment 4 that executes the second step. The information management unit 16 indicates the scheduled completion time when the scheduled completion time information received indicates the processable time of the processing equipment 4 to which the second process of the serial number XXX001 is assigned, which is included in the product information stored in the storage unit 11. To.

The information management unit 16 of the production control device 1 calculates the actual working time of the second process executed by the processing equipment 4 based on the completion information received from the processing equipment 4, and the serial number XXX001 stored in the storage unit 11. Record in the actual work time of the second process of the progress information of.

The production control device 1 repeats the above process until the production of the product having the serial number XXX001 is completed. When the production of the product having the serial number XXX001 is completed, the information management unit 16 of the production control device 1 stores the progress information of the serial number XXX001 in the storage unit 11 as the manufacturing record information.

The production plan information stored in the storage unit 11 includes a manufacturing date, a manufacturing number of a product manufactured on the manufacturing date, and a manufacturing order on the manufacturing date. The production control device 1 performs the above processing for each production number according to the production order of the day indicated by the production plan information stored in the storage unit 11. Hereinafter, the process of allocating the processing equipment 4 to the process is referred to as a scheduling process.

Here, a process executed by the production control device 1 when the processing facility 4 is stopped will be described. When the information management unit 16 of the production control device 1 detects the stoppage of the processing equipment 4, the calculation target flag of the stopped processing equipment 4 included in the product information is set to "1". The method of detecting the stoppage of the processing equipment 4 may be to receive its own equipment code and stop information indicating that the processing equipment 4 has stopped, or to monitor the stoppage / restoration of the processing equipment 4. The information management unit 16 is an example of a detection unit. The information management unit 16 deletes the equipment code of the stopped processing equipment 4 and the equipment code of the processing equipment 4 whose process is the same as that of the stopped processing equipment 4 recorded in the progress information, and updates the progress information. do. At this time, the information management unit 16 may store a copy of the progress information before the update in the storage unit 11 for backup when some problem occurs during the scheduling process and it is desired to return to the previous progress information. good.

The information management unit 16 does not delete the equipment code of the processing equipment 4 that executes the process in the progress information for the process in which the input product has already been input to the processing equipment 4. Hereinafter, the process in which the input product has already been input to the processing equipment 4 is referred to as an input completed process.

When the information management unit 16 updates the progress information, the production control device 1 executes the scheduling process for the process in which the equipment code indicating the processing equipment 4 to be executed is deleted according to the manufacturing order indicated by the production planning information. Hereinafter, the process in which the equipment code indicating the processing equipment 4 to be executed is deleted is referred to as a recalculation process.

The processing planning unit 15 reads out product information including the process code of the recalculation process. The processing planning unit 15 determines whether or not there are a plurality of processing equipments 4 to be calculated in the recalculation process based on the read product information. If there is no processing equipment 4 to be calculated in the recalculation process, the processing planning unit 15 reassigns the recalculation process to the stopped processing equipment 4. When there is only one processing equipment 4 to be calculated in the recalculation process, the processing planning unit 15 allocates the recalculation process to the processing equipment 4. The machining planning unit 15 transmits transport information including the equipment code of the machining equipment 4 to which the recalculation process is assigned and the transport device code of the transport device 2 adopted for transporting the input product to the recalculation process. Send to. When there are a plurality of processing equipments 4 to be calculated in the recalculation process, the processing planning unit 15 has the processing equipment to be calculated in the recalculation process in the average working time calculation unit 12, the moving time calculation unit 13, and the scheduled completion time calculation unit 14. Send the equipment code of 4.

When the average working time calculation unit 12 receives the equipment code of the processing equipment 4 to be calculated in the recalculation process from the processing planning unit 15, the average working time calculation unit 12 starts manufacturing in the calculation target period before the production start date of the progress information including the recalculation process. Read out the manufacturing record information of the same model code as the product in the recalculation process that has a date. The average working time for each processing facility 4 to be calculated in the recalculation process included in the read manufacturing record information is calculated. The average work time calculation unit 12 sends the average work time information indicating the average work time for each processing facility 4 to be calculated in the recalculation process to the scheduled completion time calculation unit 14.

When the moving time calculation unit 13 receives the equipment code of the processing equipment 4 to be calculated in the recalculation process from the processing planning unit 15, the movement time calculation unit 13 processes the processing including the equipment code of the processing equipment 4 to be calculated in the recalculation process from the storage unit 11. The equipment position information and the transfer device position information including the equipment code of the stopped processing equipment 4 are read out. The moving time calculation unit 13 processes the processing target to be calculated in the recalculation process from the current position of the transfer device 2 adopted for transferring the input product to the recalculation process based on the read out processing equipment position information and the transfer device position information. Calculate the shortest route to the stock area of equipment 4. The travel time calculation unit 13 calculates the travel time of the transport device 2 for each processing facility 4 to be calculated in the recalculation process by dividing the distance of the shortest path by the travel speed of the transport device 2. The moving time calculation unit 13 determines the moving time of the transport device 2 and the transport device code of the transport device 2 adopted for transporting the input product to the recalculation process for each processing equipment 4 to be calculated in the recalculation process. The indicated travel time information is sent to the scheduled completion time calculation unit 14.

When the scheduled completion time calculation unit 14 receives the equipment code of the processing equipment 4 to be calculated in the recalculation process from the processing planning unit 15, the storage unit 11 includes the equipment code of the processing equipment 4 to be calculated in the recalculation process. Read product information. The scheduled completion time calculation unit 14 is a calculation target of the recalculation process included in the average work time information received from the average work time calculation unit 12, the travel time information received from the travel time calculation unit 13, and the read product information. Based on the processable time of the processing equipment 4, the scheduled completion time at which the work is completed is calculated for each processing equipment 4 to be calculated in the recalculation process. The scheduled completion time calculation unit 14 sends the scheduled completion time information indicating the scheduled completion time and the transport device code of the adopted transport device 2 to the machining planning unit 15 for each processing facility 4 to be calculated in the recalculation process.

When the processing planning unit 15 receives the scheduled completion time information from the scheduled completion time calculation unit 14, the processing planning unit 15 allocates the recalculation process to the processing equipment 4 having the earliest scheduled completion time. The machining planning unit 15 transmits transport information including the equipment code of the machining equipment 4 to which the recalculation process is assigned and the transport device code of the transport device 2 adopted for transporting the input product to the recalculation process. Send to.

When the transport management device 3 receives the transport information, the transport management device 3 instructs the transport device 2 adopted for transporting the input product to the recalculation process to move to the stock area of the processing equipment 4 to which the recalculation process is assigned. Send instructions. Upon receiving the move instruction, the transfer device 2 moves to the stock area of the processing equipment 4 to which the recalculation process is assigned. If the transfer device 2 is not yet loaded with the products input to the recalculation process, the transfer device 2 is the processing equipment 4 to which the recalculation process is assigned after the input products to the recalculation process are loaded. Move to the stock area of.

The processing planning unit 15 sends the equipment code of the processing equipment 4 to which the recalculation process is assigned and the scheduled completion time information to the information management unit 16. The information management unit 16 records the equipment code received from the processing planning unit 15 in the progress information stored in the storage unit 11 and in the equipment code indicating the processing equipment 4 that executes the recalculation step. The information management unit 16 sets the processable time of the processing equipment 4 to which the recalculation process is assigned, which is included in the product information stored in the storage unit 11, as the scheduled completion time indicated by the received scheduled completion time information.

The information management unit 16 of the production control device 1 calculates the actual work time of the recalculation process executed by the processing equipment 4 based on the completion information received from the processing equipment 4, and corresponds to the progress information stored in the storage unit 11. Record in the actual working time of the recalculation process.

The production control device 1 executes the above scheduling process for all the recalculation steps according to the manufacturing order indicated by the production planning information.

Subsequently, the processing executed by the production control device 1 when the stopped processing equipment 4 is restored will be described. When the information management unit 16 of the production control device 1 detects the restoration of the processing equipment 4, the calculation target flag of the restored processing equipment 4 included in the product information is set to "0". As a method of detecting the restoration of the processing equipment 4, the own equipment code and the restoration information indicating the restoration may be received from the processing equipment 4, or the stoppage / restoration of the processing equipment 4 may be monitored. .. The information management unit 16 deletes the equipment code of the processing equipment 4 having the same executable process and the execution process of the processing equipment 4 whose progress information has been restored, and updates the progress information. At this time, the information management unit 16 may store a copy of the progress information before the update for backup when some problem occurs during the scheduling process and it is desired to return to the previous progress information.

When the information management unit 16 updates the progress information, the production control device 1 executes the above scheduling process for all the recalculation steps according to the manufacturing order indicated by the production planning information. If the input product has already been input to the stopped processing equipment 4 and the restoration of the processing equipment 4 is made the next day or later, the information management unit 16 informs the production plan information of the day when the processing equipment 4 is restored. Insert the serial number of the input process at the beginning of the production sequence.

When the input product has already been input to the stopped processing equipment 4, the information management unit 16 of the production control device 1 has executed the input process executed by the processing equipment 4 based on the completion information received from the restored processing equipment 4. The actual work time of the above is calculated, and the progress information stored in the storage unit 11 is recorded in the actual work time of the input process. The actual working time in this case includes the time when the work is stopped.

Here, the flow of the production control process executed by the production control device 1 will be described with reference to FIG. The production control process shown in FIG. 5 starts when the power of the production control device 1 is turned on. The information management unit 16 of the production control device 1 determines from the production start instruction tool 5 whether or not the production start information of the first production number in the production order of the day indicated by the production plan information is received (step S11). .. When the manufacturing start information has not been received (step S11; NO), the information management unit 16 repeats step S11 and waits for the reception of the manufacturing start information. When the manufacturing start information is received (step S11; YES), the information management unit 16 records the start instruction date indicated by the manufacturing start information on the manufacturing start date of the progress information of the serial number indicated by the manufacturing start information, and manufactures the product. Record the model code indicated by the manufacturing start information in the model code of. Hereinafter, the serial number indicated by the manufacturing start information is referred to as a start manufacturing number.

In the progress information of FIG. 2, 2019/04/01 is recorded on the production start date of the serial number XXX001, and MD0001 is recorded in the model code of the product to be manufactured.

Returning to FIG. 5, when the model code of the product to be manufactured is recorded in the progress information of the start serial number, the machining planning unit 15 reads the product information of the same model code from the storage unit 11. Based on the read product information, the processing planning unit 15 extracts the processing equipment 4 to be calculated, which can execute the first step of the start serial number and whose calculation target flag is 0 (step S12). The machining planning unit 15 determines whether or not there are a plurality of machining facilities 4 to be calculated in the first process (step S13). When there is only one processing equipment 4 to be calculated in the first process (step S13; NO), the processing planning unit 15 assigns the first process of the start serial number to the processing equipment 4 (step S17). When there are a plurality of processing equipments 4 to be calculated in the first process (step S13; YES), the processing planning unit 15 first informs the average work time calculation unit 12, the movement time calculation unit 13, and the scheduled completion time calculation unit 14. Send the equipment code of the processing equipment 4 to be calculated in the process.

In the progress information shown in FIG. 2, the model code of the product manufactured by the serial number XXX001 is MD0001, so that the machining planning unit 15 reads out the product information of the model code MD0001 shown in FIG. In the example of FIG. 3, the first step of manufacturing the serial number XXX001 is the step of the step code P0001. Since the processing equipment 4 whose process code is P0001 and whose calculation target flag is 0 is the three processing equipments 4 whose equipment codes are F002, F005, and F010, the processing planning unit 15 has an average working time. The equipment codes F002, F005, and F010 of the processing equipment 4 to be calculated in the first process are sent to the calculation unit 12, the movement time calculation unit 13, and the scheduled completion time calculation unit 14.

Returning to FIG. 5, when the average working time calculation unit 12 receives the equipment code of the processing equipment 4 to be calculated in the first process from the processing planning unit 15, the calculation target before the manufacturing start date of the progress information of the start serial number. Read out the manufacturing record information of the same model code as the product with the manufacturing number that has the manufacturing start date in the period. The average working time calculation unit 12 calculates the average working time, which is the average value of the actual working time for each processing facility 4 to be calculated in the first process included in the read manufacturing record information (step S14). The average work time calculation unit 12 sends the average work time information indicating the average work time for each processing facility 4 to be calculated in the first process to the scheduled completion time calculation unit 14.

In the example of FIG. 2, the production start date is 2019/04/01. Assuming that the calculation target period is one month, the average working time calculation unit 12 reads out the manufacturing record information of MD0001 with the model code having the manufacturing start date from 2019/03/01 to 2019/04/01. The average working time calculation unit 12 calculates the average working time of the process code P0001 and the equipment codes F002, F005, and F010 included in the read manufacturing record information, respectively.

Returning to FIG. 5, when the moving time calculation unit 13 receives the equipment code of the processing equipment 4 to be calculated in the first process from the processing planning unit 15, the storage unit 11 receives the equipment code of the processing equipment 4 to be calculated in the first process. The processing equipment position information including the equipment code and the transport device position information including the equipment code of the storage equipment are read out. The moving time calculation unit 13 calculates the shortest path from the stock area of the storage equipment to the stock area of the processing equipment 4 to be calculated in the first process based on the read out processing equipment position information and the transfer device position information. The travel time calculation unit 13 calculates the travel time of the transport device 2 for each processing facility 4 to be calculated in the first process by dividing the distance of the shortest path by the travel speed of the transport device 2 (step S15). .. The moving time calculation unit 13 completes the scheduled completion time calculation unit 14 for the moving time of the transfer device 2 and the moving time information indicating the transfer device code of the adopted transfer device 2 for each processing equipment 4 to be calculated in the first process. Send to.

When the scheduled completion time calculation unit 14 receives the equipment code of the processing equipment 4 to be calculated in the first process from the processing planning unit 15, the storage unit 11 includes the equipment code of the processing equipment 4 to be calculated in the first process. Read product information. The scheduled completion time calculation unit 14 is the calculation target of the first process included in the average work time information received from the average work time calculation unit 12, the travel time information received from the travel time calculation unit 13, and the read product information. Based on the processable time of the processing equipment 4, the scheduled completion time for completing the work is calculated for each processing equipment 4 to be calculated in the first process (step S16). The scheduled completion time calculation unit 14 sends the scheduled completion time information indicating the scheduled completion time and the transport device code of the adopted transport device 2 to the machining planning unit 15 for each processing facility 4 to be calculated in the first process.

When the processing planning unit 15 receives the scheduled completion time information from the scheduled completion time calculation unit 14, the processing planning unit 15 assigns the first process of the start serial number to the processing equipment 4 having the earliest scheduled completion time (step S17). The processing planning unit 15 transmits the transfer information including the start serial number, the equipment code of the processing equipment 4 to which the first process is assigned, and the transfer device code of the adopted transfer device 2 to the transfer management device 3 (step). S18).

The processing planning unit 15 sends the equipment code of the processing equipment 4 to which the first process of the start serial number is assigned and the scheduled completion time information to the information management unit 16. The information management unit 16 records the equipment code received from the processing planning unit 15 in the progress information of the start serial number stored in the storage unit 11 and the equipment code indicating the processing equipment 4 that executes the first process (step S19). ). The information management unit 16 sets the scheduled completion time indicated by the received scheduled completion time information at the processable time of the processing facility 4 to which the first process of the start serial number is assigned, which is included in the product information stored in the storage unit 11. Record (step S20). Steps S13 to S20 are scheduling processes.

In the example of FIG. 2, F002 is recorded in the equipment code of the process whose process code is P0001, which is the first process of the serial number XXX001. In the example of FIG. 3, 13:55:30 is recorded at the processable time of the processing equipment 4 having the equipment code F002.

The information management unit 16 determines whether or not the completion information has been received from the processing equipment 4 to which the first process of the start serial number is assigned (step S21). When the completion information has not been received (step S21; NO), the information management unit 16 repeats step S21 and waits for the reception of the completion information. When the completion information is received (step S21; YES), the information management unit 16 calculates the actual work time of the first process executed by the processing equipment 4 based on the received completion information, and the storage unit 11 stores it. The progress information of the start serial number is recorded in the actual working time of the first process (step S22).

In the example of FIG. 2, 00:05:30 is recorded in the actual working time when the process code of the serial number XXX001 is P0001 and the equipment code is F002.

Returning to FIG. 5, when the actual work time of the processing equipment 4 in the first process is recorded in the progress information of the start serial number, the processing planning unit 15 records the actual work time in the last process. Whether or not it is determined (step S23). If the actual working time is not recorded in the last step (step S23; NO), the process returns to step S13, and steps S13 to S23 are repeated for the second step of the start serial number. When steps S13 to S23 are repeated for all the steps of the start serial number and the actual work time is recorded in the last step (step S23; YES), the information management unit 16 provides progress information of the start serial number. Is stored in the storage unit 11 as manufacturing record information (step S24).

If there is a production number next to the production order indicated by the production plan information (step S25; NO), the process returns to step S11, and steps S11 to S25 are repeated for the next production number in the production order indicated by the production plan information. .. The production control device 1 repeats steps S11 to S25 in the manufacturing order, and ends the process when the next serial number in the manufacturing order indicated by the production planning information disappears (step S25; YES).

Subsequently, when the processing equipment 4 to which the process is assigned in step S17 of the flowchart shown in FIG. 5 is stopped, the flow of the stop handling process executed by the production control device 1 will be described with reference to FIG. The stop response process shown in FIG. 6 starts when the information management unit 16 detects the stop of the processing equipment 4 to which the process is assigned in step S17. The information management unit 16 of the production control device 1 sets the calculation target flag of the stopped processing equipment 4 included in the product information to “1” (step S31).

The information management unit 16 has the equipment code of the stopped processing equipment 4 recorded in the equipment code indicating the processing equipment 4 that executes each process of the progress information, and the processing equipment 4 whose execution process is the same as that of the stopped processing equipment 4. Delete the equipment code and update the progress information. At this time, the information management unit 16 does not delete the equipment code of the processing equipment 4 that executes the process in which the progress information has been input.

When the information management unit 16 updates the progress information, the processing planning unit 15 reads out the product information including the process code of the recalculation process. Based on the read product information, the machining planning unit 15 extracts the machining equipment 4 whose calculation target flag is 0 and which can execute the recalculation step (step S32). The machining planning unit 15 determines whether or not there are a plurality of machining facilities 4 to be calculated in the recalculation process (step S33). When there is only one processing equipment 4 to be calculated in the recalculation process (step S33; NO), the processing planning unit 15 assigns the processing equipment 4 a recalculation step of the start serial number (step S37). When there is no processing equipment 4 to be calculated in the recalculation process (step S33; NO), the processing planning unit 15 reassigns the recalculation process to the stopped processing equipment 4 (step S37). When there are a plurality of processing equipment 4 to be calculated in the recalculation process (step S33; YES), the processing equipment to be calculated in the recalculation process is added to the average working time calculation unit 12, the moving time calculation unit 13, and the scheduled completion time calculation unit 14. Send the equipment code of 4.

When the average working time calculation unit 12 receives the equipment code of the processing equipment 4 to be calculated in the recalculation process from the processing planning unit 15, the average working time calculation unit 12 starts manufacturing in the calculation target period before the production start date of the progress information including the recalculation process. Read out the manufacturing record information of the same model code as the product in the recalculation process that has a date. The average working time for each processing facility 4 to be calculated in the recalculation process included in the read manufacturing record information is calculated (step S34). The average work time calculation unit 12 sends the average work time information indicating the average work time for each processing facility 4 to be calculated in the recalculation process to the scheduled completion time calculation unit 14.

When the moving time calculation unit 13 receives the equipment code of the processing equipment 4 to be calculated in the recalculation process from the processing planning unit 15, the movement time calculation unit 13 processes the processing including the equipment code of the processing equipment 4 to be calculated in the recalculation process from the storage unit 11. The equipment position information and the transfer device position information including the equipment code of the stopped processing equipment 4 are read out. The moving time calculation unit 13 calculates the recalculation process from the current position of the transfer device 2 adopted for transferring the input product to the stopped processing equipment 4 based on the read processing equipment position information and the transfer device position information. Calculate the shortest route to the stock area of the processing equipment 4 of. The travel time calculation unit 13 calculates the travel time of the transport device 2 for each processing facility 4 to be calculated in the recalculation process by dividing the distance of the shortest path by the travel speed of the transport device 2 (step S35). .. The moving time calculation unit 13 determines the moving time of the transport device 2 and the transport device code of the transport device 2 adopted for transporting the input product to the recalculation process for each processing equipment 4 to be calculated in the recalculation process. The indicated travel time information is sent to the scheduled completion time calculation unit 14.

When the scheduled completion time calculation unit 14 receives the equipment code of the processing equipment 4 to be calculated in the recalculation process from the processing planning unit 15, the storage unit 11 includes the equipment code of the processing equipment 4 to be calculated in the recalculation process. Read product information. The scheduled completion time calculation unit 14 is a calculation target of the recalculation process included in the average work time information received from the average work time calculation unit 12, the travel time information received from the travel time calculation unit 13, and the read product information. Based on the processable time of the processing equipment 4, the scheduled completion time for completing the work is calculated for each processing equipment 4 to be calculated in the recalculation process (step S36). The scheduled completion time calculation unit 14 sends the scheduled completion time information indicating the scheduled completion time and the transport device code of the adopted transport device 2 to the machining planning unit 15 for each processing facility 4 to be calculated in the recalculation process.

When the machining planning unit 15 receives the scheduled completion time information from the scheduled completion time calculation unit 14, the machining planning unit 15 allocates the recalculation process to the machining facility 4 having the earliest scheduled completion time (step S37). The machining planning unit 15 transmits transport information including the equipment code of the machining equipment 4 to which the recalculation process is assigned and the transport device code of the transport device 2 adopted for transporting the input product to the recalculation process. (Step S38). The processing planning unit 15 sends the equipment code of the processing equipment 4 to which the recalculation process is assigned and the scheduled completion time information to the information management unit 16. The information management unit 16 records the equipment code received from the processing planning unit 15 in the progress information stored in the storage unit 11 in the equipment code indicating the processing equipment 4 that executes the recalculation step (step S39). The information management unit 16 records the scheduled completion time indicated by the received scheduled completion time information at the processable time of the processing equipment 4 to which the recalculation process is assigned, which is included in the product information stored in the storage unit 11 (step). S40).

The information management unit 16 determines whether or not the completion information has been received from the processing equipment 4 to which the recalculation process is assigned (step S41). When the completion information has not been received (step S41; NO), the information management unit 16 repeats step S41 and waits for the reception of the completion information. When the completion information is received (step S41; YES), the information management unit 16 calculates the actual work time of the recalculation process executed by the processing equipment 4 based on the received completion information, and the storage unit 11 stores it. The progress information of the start serial number is recorded in the actual working time of the recalculation step (step S42).

If there is a next recalculation step (step S43; NO), the process returns to step S33, and steps S33 to S43 are repeated for the next recalculation step. The production control device 1 repeats steps S33 to S43 for the recalculation step according to the manufacturing order indicated by the production planning information. When the next recalculation step disappears (step S43; YES), the process ends.

Subsequently, when the processing equipment 4 stopped in the flowchart shown in FIG. 6 is restored, the flow of the restoration response process executed by the production control device 1 will be described with reference to FIG. The restoration response process shown in FIG. 7 starts when the restoration of the processing equipment 4 is detected. The information management unit 16 of the production control device 1 sets the calculation target flag of the restored processing equipment 4 included in the product information to “0” (step S51). The information management unit 16 deletes the equipment code of the processing equipment 4 having the same executable process and the execution process of the processing equipment 4 whose progress information has been restored, and updates the progress information (step S52). At this time, the information management unit 16 does not delete the equipment code of the processing equipment 4 that executes the process in which the progress information has been input.

Since steps S53 to S63 executed for the recalculation step are the same processes as steps S33 to S43 of the flowchart shown in FIG. 6, description thereof will be omitted. When the input product has already been input to the stopped processing equipment 4, the actual working time of the loaded process executed by the restored processing equipment 4 calculated in step S62 includes the stopped time.

According to the production control system 100 according to the first embodiment, a plurality of processing equipments 4 for executing a plurality of processes for manufacturing a product, a plurality of transporting devices 2 for transporting input products to the processing equipment 4, and a plurality of transporting devices 2. Based on the past average working time of the processing equipment 4, the moving time of the transfer device 2 to the processing equipment 4, and the processable time of the processing equipment 4, the process to the processing equipment 4 having the earliest scheduled completion time By assigning, the production efficiency can be improved. Further, by executing the stop response process when the processing facility 4 to which the process is assigned is stopped and executing the recovery response process when the process is restored, the productivity is reduced due to the retention of work-in-process waiting for the processing process. Can be suppressed.

(Embodiment 2)
The configuration of the production control system 100 of the second embodiment is the same as that of the first embodiment. In the second embodiment, in the scheduling process, the production control device 1 takes into consideration the maintenance cost for the maintenance and inspection of the processing equipment 4 and the loss cost due to the reprocessing and shutdown of the processing equipment 4 in addition to the scheduled completion time. The processing equipment 4 to which is assigned is determined.

As shown in FIG. 8, the production control device 1 is added to the storage unit 11, the average work time calculation unit 12, the movement time calculation unit 13, the scheduled completion time calculation unit 14, the processing planning unit 15, and the information management unit 16. The average maintenance cost calculation unit 17 and the average loss cost calculation unit 18 are provided.

As shown in FIG. 9, the progress information stored in the storage unit 11 includes the serial number, model code, manufacturing start date, process code, equipment code, and the actual working time of the processing equipment 4 in each process, as well as each process. Includes the maintenance cost of the processing equipment 4 of the above and the loss cost of the processing equipment 4 of each process.

When the machining planning unit 15 of the production control device 1 has a plurality of machining equipments 4 to be calculated for the process to be assigned, the machining planning unit 15 includes an average work time calculation unit 12, a movement time calculation unit 13, and a scheduled completion time calculation unit 14. Is sent the equipment code of the processing equipment 4 to be calculated in the first process.

The manufacturing record information stored in the storage unit 11 is progress information of the manufacturing number at which the manufacturing of the product is completed, and includes the manufacturing number, the model code, the manufacturing start date, the process code, the equipment code, the actual working time, the maintenance cost, and the maintenance cost. , Including loss cost.

When the average maintenance cost calculation unit 17 receives the equipment code of the processing equipment 4 to be calculated for the process to be assigned from the processing planning unit 15, the production start date is set to the calculation target period before the production start date of the progress information of the serial number XXX001. Read out the manufacturing record information of the same model code as the product of a certain serial number XXX001. The average maintenance cost calculation unit 17 calculates the average maintenance cost, which is the average value of the maintenance costs for each processing facility 4 to be calculated in the process to be assigned, which is included in the read manufacturing record information. The average maintenance cost calculation unit 17 sends the average maintenance cost information indicating the maintenance cost for each processing equipment 4 to be calculated in the process to be assigned to the processing planning unit 15.

When the average loss cost calculation unit 18 receives the equipment code of the processing equipment 4 to be calculated for the process to be assigned from the processing planning unit 15, the production start date is in the calculation target period before the production start date of the progress information of the serial number XXX001. Read out the manufacturing record information of the same model code as the product of serial number XXX001. The average loss cost calculation unit 18 calculates the average loss cost, which is the average value of the loss costs for each processing equipment 4 to be calculated in the process to be assigned, which is included in the read manufacturing record information. The average loss cost calculation unit 18 sends the average loss cost information indicating the loss cost for each processing equipment 4 to be calculated in the process to be assigned to the processing planning unit 15.

When the processing planning unit 15 receives the scheduled completion time information, the average maintenance cost information, and the average loss cost information from the scheduled completion time calculation unit 14, the average maintenance cost calculation unit 17, and the average loss cost calculation unit 18, the process is completed. The process with serial number XXX001 is assigned to the processing facility 4 having the earliest scheduled time. When there are a plurality of processing equipments 4 having the same scheduled completion time, the processing planning unit 15 allocates the process of serial number XXX001 to the processing equipment 4 having the lowest average maintenance cost. When there are a plurality of processing equipments 4 having the same scheduled completion time and average maintenance cost, the processing planning unit 15 allocates the process of serial number XXX001 to the processing equipment 4 having the lowest average loss cost.

When there are a plurality of processing equipments 4 having the same scheduled completion time, average maintenance cost, and average loss cost, the processing planning unit 15 assigns the process of serial number XXX001 to the processing equipment 4 having the latest start date and time. When there are a plurality of processing equipments 4 having the same scheduled completion time, average maintenance cost, average loss cost, and start-up date and time, the processing planning unit 15 performs the processing equipment with the shortest movement time of the transfer device 2 to the processing equipment 4. The process of serial number XXX001 is assigned to 4. When there are a plurality of processing equipments 4 having the same scheduled completion time, average maintenance cost, average loss cost, start-up date and time, and moving time of the transport device 2, the processing planning unit 15 has the processing equipment with the smallest equipment code number. The process of serial number XXX001 is assigned to 4.

Each time the work is completed, the processing equipment 4 transmits the completion information indicating the serial number and the completion of the work to the production control device 1. If maintenance is performed during the work, the processing equipment 4 includes the maintenance cost in the completion information. The processing equipment 4 includes the loss cost in the completion information when the loss cost is incurred during the work. The information management unit 16 of the production control device 1 calculates the actual working time of the process executed by the processing equipment 4 based on the completion information received from the processing equipment 4, and the progress information of the serial number XXX001 stored in the storage unit 11. Record in the actual working time of the relevant process.

When the completion information received from the processing facility 4 includes the maintenance cost, the information management unit 16 records the maintenance cost indicated by the completion information in the maintenance cost of the process of the progress information of the serial number XXX001 stored in the storage unit 11. do. When the completion information received from the processing equipment 4 includes the loss cost, the information management unit 16 records the loss cost indicated by the completion information in the loss cost of the process of the progress information of the serial number XXX001 stored in the storage unit 11. In the example of FIG. 9, the process code of serial number XXX001 is P0002, the equipment code is F015, and the maintenance cost is 5,000 yen and the loss cost is 10,000 yen. The maintenance cost and the loss cost may be input to the processing equipment 4 by the user or another system, or may be input to the production control device 1. In the latter case, the information management unit 16 of the production control device 1 records the input maintenance cost and loss cost in the maintenance cost and loss cost of the process of the progress information of the serial number XXX001 stored in the storage unit 11, respectively. The production control device 1 repeats the above process until the production of the product having the serial number XXX001 is completed. The other functional configurations of the production control device 1 are the same as those in the first embodiment.

According to the production control system 100 according to the second embodiment, a plurality of processing equipments 4 for executing a plurality of processes for manufacturing a product, a plurality of transporting devices 2 for transporting input products to the processing equipment 4, and a plurality of transporting devices 2. The past average working time of the processing equipment 4, the past average maintenance cost, the past average loss cost, the moving time of the transfer device 2 to the processing equipment 4, and the processing time of the processing equipment 4 By allocating the process to the processing equipment 4 having the earliest scheduled completion time based on the above, the production efficiency can be improved, and the maintenance cost and the loss cost can be suppressed.

(Embodiment 3)
The configuration of the production control system 100 of the third embodiment is the same as that of the first and second embodiments. In the third embodiment, the transfer management device 3 assigns the transfer device 2 a "standard speed" which is the moving speed of the processing equipment 4 initially assigned to the stock area and a recalculation step. Either the "recovery speed", which is the moving speed of the equipment 4 to the stock area, or the "speed upper limit value", which is the upper limit of the moving speed, is set. Hereinafter, an example in which this configuration is applied to the first embodiment will be described, but this configuration may be applied to the second embodiment.

The "speed upper limit value" is an upper limit value of the moving speed at which the input product loaded on the transport device 2 does not fall and safety can be ensured. The "speed upper limit value" of each transfer device 2 may be preset at the time of manufacturing the transfer device 2 or may be set by the user. In the latter case, the transport device 2 does not operate until the "speed upper limit value" is set. As shown in FIG. 10, the transport management device 3 stores the speed upper limit information indicating the “speed upper limit value” of each transport device 2. For example, the transport management device 3 associates the information indicating the "speed upper limit value" received from each transport device 2 with the transport device code that identifies the transport device 2 and stores it as the speed upper limit information. Alternatively, the transport management device 3 may accept the input of the speed upper limit information from the user, or may acquire the speed upper limit information from an external device or system.

Further, the transport management device 3 is a movement indicating a standard movement distance in which the transport device 2 in the stock area of each processing facility 4 transports the input product to the stock area of the processing facility 4 in the next process and returns to the standby stock area. It remembers the distance information. The standard travel distance may be, for example, twice the shortest distance from the stock area to which the transfer device 2 is associated to the stock area of the nearest processing facility 4 capable of executing the next step, or the transfer device 2 is associated with the standard travel distance. The average value may be twice the shortest distance from the stock area to the stock area of all the processing equipment 4 capable of performing the next step. The transport management device 3 may accept the input of the travel distance information from the user, or may acquire the travel distance information from an external device or system.

The transport management device 3 acquires the production plan information stored in the storage unit 11 of the production control device 1. The transport management device 3 is a scheduled work from the start of the processing of one input product to the start of the processing of the next input product by the processing equipment 4 based on the daily production plan indicated by the production plan information. Calculate the time. Hereinafter, the scheduled working time from the start of the processing of one input product to the start of the processing of the next input product by the processing equipment 4 is referred to as a tact time.

Specifically, the transport management device 3 extracts the number of products manufactured on the day of the product having a process that can be executed by the processing equipment 4 from the daily production plan indicated by the production plan information. The transport management device 3 calculates the total number of times that the processing equipment 4 executes the process on the day from the number of products manufactured on the day in which the processing equipment 4 has a process that can be executed. The takt time is calculated by dividing the operating time of the processing equipment 4 on the day by the total number of times the processing equipment 4 executes the process on the day. When there are other processing facilities 4 having the same process to be executed, the transport management device 3 first divides the total number of times the process is executed on the day by the number of processing facilities 4 having the same process to be executed. Calculate the number of times the process is executed on the day of each vehicle. The transport management device 3 calculates the takt time by dividing the operating time of the processing equipment 4 on the current day by the number of times the process is executed on the current day.

The transport management device 3 divides the standard travel distance indicated by the travel distance information by the tact time of the processing equipment 4 for each processing equipment 4, and divides the transport device 2 associated with the stock area of the processing equipment 4. Calculate the "standard speed". That is, the "standard speed" is expressed by the following formula.
Standard speed = standard travel distance / tact time

The transport management device 3 calculates the "standard speed" of the transport device 2 associated with the stock area of the processing facility 4 for all the processing facilities 4. When the calculated "standard speed" is faster than the "speed upper limit value", the transport management device 3 transmits information indicating the "speed upper limit value" to the transport device 2 and sets the "speed upper limit value" as the moving speed. .. When the calculated "standard speed" is slower than the "speed upper limit value", the transport management device 3 transmits information indicating the "standard speed" to the transport device 2 and sets the "standard speed" as the moving speed. The transport management device 3 is an example of a standard speed calculation unit and a movement speed setting unit. The transport device 2 moves at a set moving speed. The transport management device 3 transmits to the production control device 1 set movement speed information indicating the movement speed set in the transport device 2 associated with the stock area of each processing facility 4.

The movement time calculation unit 13 of the production control device 1 divides the shortest route from the stock area of the processing equipment 4 in the previous process to the stock area of the processing equipment 4 to be calculated in the process to be assigned by the movement speed indicated by the set movement speed information. As a result, the moving time of the transport device 2 for each processing facility 4 to be calculated in the process to be assigned is calculated.

The "standard speed" is a moving speed calculated on the assumption that each processing facility 4 does not stop. Therefore, if the processing equipment 4 is stopped, the moving distance to the stock area of the processing equipment 4 to which the recalculation process is assigned may be longer than the standard moving distance. Therefore, when the transport device 2 adopted for transporting the input product to the recalculation process moves to the stock area of the processing equipment 4 to which the recalculation process is assigned at the “standard speed”, the execution start time of the recalculation process is set. There is a possibility that the execution start time scheduled for the stopped processing equipment 4 will be delayed. Further, when the transport device 2 adopted for transporting the input product to the recalculation process returns from the stock area of the processing equipment 4 to which the recalculation process is assigned to the standby stock area at the "standard speed", the next input product is returned. May not be in time for loading.

Therefore, the transport management device 3 is the shortest that the transport device 2 adopted for transporting the input product to the recalculation process transports the input product from the current position to the stock area of the processing equipment 4 to which the recalculation process is assigned and returns. The "recovery speed" is calculated by dividing the distance by the tact time of the processing equipment 4 in the previous process. That is, the "recovery speed" is expressed by the following formula. Hereinafter, the shortest distance at which the transfer device 2 adopted for transporting the input product to the recalculation process transports the input product from the current position to the stock area of the processing equipment 4 to which the recalculation process is assigned and returns to the standby stock area is determined. It is called the re-movement distance.
Recovery speed = re-movement distance / tact time

If the transport device 2 adopted for transporting the input to the recalculation process moves to the stock area of the processing equipment 4 to which the recalculation process is assigned at the "recovery speed", the delay in the execution start time of the recalculation process can be suppressed. can. Further, if the transport device 2 adopted for transporting the input product to the recalculation process returns from the stock area of the processing equipment 4 to which the recalculation process is assigned to the standby stock area at the "recovery speed", the next input product It is possible to prevent the vehicle from being missed in time for loading.

Returning to FIG. 10, when the processing equipment 4 is stopped, the processing planning unit 15 of the production control device 1 transfers the processing equipment position information of the processing equipment 4 to be calculated in the recalculation process and the input product to the recalculation process. The re-transportation information including the transfer device code of the transfer device 2 adopted in the above is transmitted to the transfer management device 3. The transport management device 3 calculates the "recovery speed" by dividing the re-movement distance by the tact time for each processing facility 4 to be calculated in the recalculation process based on the re-transport information received from the production control device 1. do. The transport management device 3 is an example of a recovery speed calculation unit.

When the calculated "recovery speed" is faster than the "speed upper limit value", the transport management device 3 sets the "speed upper limit value" in the recalculation step of the transport device 2 adopted for transporting the input product to the recalculation step. The moving speed of the processing equipment 4 to be calculated is determined. When the calculated "recovery speed" is slower than the "speed upper limit value", the transport management device 3 calculates the "recovery speed" of the recalculation process of the transport device 2 adopted for transporting the input product to the recalculation step. The moving speed of the target processing equipment 4 to the stock area is determined. The transport management device 3 produces removing speed information indicating the moving speed of the processing equipment 4 to be calculated in each recalculation process of the transport device 2 adopted for transporting the input product to the recalculation process to the stock area. It is transmitted to the device 1.

The moving time calculation unit 13 of the production control device 1 determines the shortest route from the current position of the transfer device 2 adopted for transporting the input product to the recalculation process to the stock area of the processing equipment 4 to be calculated in the recalculation process. By dividing the re-movement speed information by the indicated movement speed, the movement time of the transfer device 2 for each processing equipment 4 to be calculated in the recalculation process is calculated.

Returning to FIG. 10, the processing planning unit 15 of the production control device 1 has the equipment code of the processing equipment 4 to which the recalculation process is assigned and the transfer device code of the transfer device 2 adopted for transferring the input product to the recalculation process. The transport information including the above is transmitted to the transport management device 3. When the transport management device 3 receives the transport information, the transport management device 3 instructs the transport device 2 adopted for transporting the input product to the recalculation process to move to the stock area of the processing equipment 4 to which the recalculation process is assigned. Send instructions. At this time, the transport management device 3 transmits information indicating the "recovery speed" or the "speed upper limit value" determined as the moving speed to the transport device 2, and moves to the stock area of the processing equipment 4 to which the recalculation process is assigned. Then, set it as the movement speed to return to the standby stock area. The transport management device 3 is an example of a moving speed resetting unit. Upon receiving the movement instruction, the transfer device 2 moves to the stock area of the processing equipment 4 to which the recalculation process is assigned at the set movement speed, and returns to the standby stock area.

Here, the flow of the movement speed setting process executed by the transport management device 3 will be described with reference to FIG. The movement speed setting process shown in FIG. 11 starts when the power of the transport management device 3 is turned on. The transport management device 3 acquires the production plan information stored in the storage unit 11 of the production control device 1 (step S71). The transport management device 3 calculates the takt time of the processing equipment 4 based on the daily production plan indicated by the production plan information (step S72). The transport management device 3 divides the standard travel distance indicated by the stored travel distance information by the takt time to calculate the "standard speed" of the transport device 2 associated with the stock area of the processing equipment 4 ( Step S73).

The transport management device 3 determines whether or not the calculated "standard speed" is faster than the "speed upper limit value" (step S74). When the "standard speed" is slower than the "upper speed value" (step S74; NO), information indicating the "standard speed" is transmitted to the transport device 2 and the "standard speed" is set as the moving speed (step S75). .. When the "standard speed" is faster than the "speed upper limit value" (step S74; YES), the information indicating the "speed upper limit value" is transmitted to the transport device 2 and the "speed upper limit value" is set as the moving speed (step). S76). The transport device 2 moves at a set moving speed.

If there is a next processing facility 4 (step S77; NO), the process returns to step S71, and steps S71 to S76 are repeated for the next processing facility 4. The production control device 1 repeats steps S71 to S76 for all the processing facilities 4, and when there is no next processing facility 4 (step S77; YES), the transfer control device 3 corresponds to the stock area of each processing facility 4. The set movement speed information indicating the movement speed set in the attached transfer device 2 is transmitted to the production control device 1 (step S78), and the process ends.

In step S15 of the flowchart shown in FIG. 5 of the first embodiment, the moving speed of the transport device 2 in which the moving time calculation unit 13 divides the distance of the shortest path is the “standard” indicated by the set moving speed information received from the transport management device 3. "Speed" or "upper speed limit".

Subsequently, the flow of the moving speed resetting process executed by the transport management device 3 when the processing equipment 4 is stopped will be described with reference to FIG. The moving speed resetting process shown in FIG. 12 is adopted by the transfer control device 3 for transporting the processing equipment position information of the processing equipment 4 to be calculated in the recalculation process from the production control device 1 and the input product to the recalculation process. It starts when the re-transportation information including the transfer device code of the transfer device 2 is received. The transport management device 3 calculates the "recovery speed" by dividing the re-movement distance by the tact time for each processing facility 4 to be calculated in the recalculation process based on the re-transport information received from the production control device 1. (Step S81).

The transport management device 3 determines whether or not the calculated "recovery speed" is faster than the "speed upper limit value" (step S82). When the "recovery speed" is slower than the "speed upper limit value" (step S82; NO), the "recovery speed" is the calculation target of the recalculation process of the transfer device 2 adopted for the transfer of the input product to the recalculation process. The moving speed of the processing equipment 4 to the stock area is determined (step S83). When the "recovery speed" is faster than the "speed upper limit value" (step S82; YES), the "speed upper limit value" is the calculation target of the recalculation process of the transfer device 2 adopted for transporting the input product to the recalculation process. The moving speed of the processing equipment 4 to the stock area is determined (step S84).

If there is a processing facility 4 to be calculated in the next recalculation step (step S85; NO), the process returns to step S81, and steps S81 to S84 are repeated for the next processing facility 4. The transfer management device 3 repeats steps S81 to S84 for the processing equipment 4 to be calculated in all the recalculation steps, and when there is no processing equipment 4 to be calculated in the next recalculation step (step S85; YES), the transfer is transferred. The management device 3 produces re-movement speed information indicating the movement speed of the processing equipment 4 to be calculated in each recalculation process of the transfer device 2 adopted for transporting the input product to the recalculation process to the stock area. It is transmitted to 1 (step S86).

In step S35 of the flowchart shown in FIG. 6 of the first embodiment, the movement speed of the transfer device 2 in which the movement time calculation unit 13 divides the distance of the shortest path is determined by the re-movement speed information received from the transfer management device 3. "Recovery speed" or "upper speed limit".

Returning to FIG. 12, the transport management device 3 has the equipment code of the processing equipment 4 to which the recalculation process is assigned from the production control device 1 and the transport device code of the transport device 2 adopted for transporting the input product to the recalculation process. When the transport information including the above is not received (step S87; NO), step S87 is repeated to wait for the receipt of the transport information. When the transfer management device 3 receives the transfer information from the production control device 1 (step S87; YES), the transfer control device 3 is assigned the recalculation process to the transfer device 2 adopted for transporting the input product to the recalculation process. A movement instruction instructing the movement of the equipment 4 to the stock area is transmitted. At this time, the transport management device 3 transmits information indicating the "recovery speed" or the "speed upper limit value" determined as the moving speed to the transport device 2, and moves to the stock area of the processing equipment 4 to which the recalculation process is assigned. Then, it is set as the moving speed for returning to the standby stock area (step S88), and the process is terminated. Upon receiving the movement instruction, the transfer device 2 moves to the stock area of the processing equipment 4 to which the recalculation process is assigned at the set movement speed, and returns to the standby stock area.

According to the production control system 100 according to the third embodiment, by setting the moving speed of the transport device 2 according to the tact time of each processing equipment 4, the work-in-process waiting for the processing processing stays or the processing equipment 4 It is possible to suppress a decrease in productivity due to a delay in the execution start time of the above process.

In the above-described first to third embodiments, the production control device 1 performs a stop response process when the processing facility 4 to which the process is assigned stops, and performs a recovery response process when the process is restored, but the present invention is not limited to this. For example, when the information management unit 16 of the production control device 1 detects the stoppage of the processing equipment 4, the calculation target flag of the stopped processing equipment 4 included in the product information is set to "1", and the restoration of the processing equipment 4 is detected. Then, the calculation target flag of the restored processing equipment 4 included in the product information may be simply set to "0".

In the above-described first to third embodiments, the information management unit 16 of the production control device 1 records the manufacturing start date, model code, process code, equipment code, and actual working time in the progress information, and manufactures the product. When completed, the progress information is stored in the storage unit 11 as manufacturing record information, but the present invention is not limited to this. For example, the information management unit 16 executes a process of recording the manufacturing start date, model code, process code, equipment code, and actual working time to generate progress information and manufacturing record information by an external device or system. , The manufacturing record information may be received from the outside and stored in the storage unit 11.

In the first embodiment, the order in which the machining planning unit 15 of the production control device 1 determines the machining facility 4 to which the process is assigned is the scheduled completion time, the start-up date and time, the movement time of the transfer device 2, and the equipment code. In that order. In the second embodiment, the order in which the machining planning unit 15 determines the machining equipment 4 to which the process is assigned is the scheduled completion time, the average maintenance cost, the average loss cost, the start-up date and time, the moving time of the transport device 2. The order is the equipment code. Not limited to these orders, the order in which the average maintenance cost, scheduled completion time, average loss cost, start-up date and time, and movement time of the transfer device 2 other than the equipment code are used as indicators for determining the processing equipment 4 to which the process is assigned is the order of the user. It may be optional. Further, the average maintenance cost, the average loss cost, the start-up date and time, and the moving time of the transport device 2 do not have to be used as indexes. When the average maintenance cost is not used as an index, the production control device 1 does not have to include the average maintenance cost calculation unit 17. When the average loss cost is not used as an index, the production control device 1 does not have to include the average loss cost calculation unit 18. Regarding the index for determining the processing equipment 4 to which the process is assigned, for example, the user sets in the production control device 1 which index other than the equipment code is used in which order.

In the second embodiment described above, the completion information includes the maintenance fee, but the completion information is not limited to this. Maintenance does not have to be done during work, and maintenance costs do not have to be calculated for each process. In this case, the processing equipment 4 transmits maintenance cost information indicating the maintenance cost to the production control device 1 when the maintenance is performed. When the information management unit 16 of the production control device 1 receives the maintenance cost information from the processing equipment 4, the information management unit 16 records the maintenance cost in the progress information of the day.

In the second embodiment described above, the completion information includes the loss cost, but the completion information is not limited to this. The loss cost calculation does not have to be for each process. In this case, when the loss cost occurs, the processing equipment 4 transmits the loss cost information indicating the loss cost to the production control device 1. When the information management unit 16 of the production control device 1 receives the loss cost information from the processing equipment 4, the information management unit 16 records the loss cost in the progress information of the day.

In the above-described first to third embodiments, the information management unit 16 of the production control device 1 has a processable time of the processing equipment 4 to which the process is assigned by the processing planning unit 15 included in the product information stored in the storage unit 11. The scheduled completion time indicated by the scheduled completion time information received from the machining planning unit 15 is recorded, but the present invention is not limited to this. The information management unit 16 may determine the processable time in consideration of the date and time when the necessary parts of the processing equipment 4 arrive.

In this case, the storage unit 11 stores the part information including the equipment code of each processing equipment 4 and the date and time when the necessary parts of the processing equipment 4 arrive. When the scheduled completion time indicated by the scheduled completion time information received from the machining planning unit 15 is later than the date and time when the necessary parts of the machining facility 4 indicated by the parts information arrive, the information management unit 16 stores the storage unit 11. The scheduled completion time indicated by the scheduled completion time information received from the machining planning unit 15 is recorded in the processable time of the machining facility 4 to which the process is assigned by the machining planning unit 15 included in the stored product information. When the scheduled completion time indicated by the received scheduled completion time information is earlier than the arrival date and time of the required parts of the processing equipment 4 indicated by the parts information, the information management unit 16 stores the product information stored in the storage unit 11. The date and time when the necessary parts of the processing equipment 4 indicated by the part information arrive are recorded at the processing processable time of the processing equipment 4 to which the process is assigned by the processing planning unit 15, which is included.

In the above-described first to third embodiments, the movement time calculation unit 13 of the production control device 1 has the shortest movement time to the processing equipment 4 to be calculated among the transfer devices 2 in the stock area for loading the input products. The transport device 2 is adopted, but the present invention is not limited to this. For example, for all the transport devices 2 having the loading flag of "0" including the case of turning back, the travel time for moving to the processing equipment 4 to be calculated via the stock area for loading the input products is calculated, and the travel time is calculated. The shortest transfer device 2 may be adopted.

In the above-described first to third embodiments, the production control device 1 does not display the information stored in the storage unit 11, but the present invention is not limited to this. The production control device 1 may display, for example, progress information and manufacturing record information stored in the storage unit 11. This allows the user to check the progress and achievements of manufacturing the product.

In the third embodiment described above, the transport management device 3 determines the moving speed of the transport device 2, but the movement speed is not limited to this. The production control device 1 may perform the process of determining the moving speed of the transport device 2. Further, the transport management device 3 moves to the stock area of the processing equipment 4 to which the recalculation process is assigned, and sets the "recovery speed" or the "speed upper limit value" as the moving speed to return to the standby stock area. Not limited to this. The transport management device 3 may set at least a “recovery speed” or a “speed upper limit value” as a moving movement speed for moving to the stock area of the processing equipment 4 to which the recalculation process is assigned.

The hardware configuration of the production control device 1 will be described with reference to FIG. As shown in FIG. 13, the production control device 1 includes a temporary storage unit 101, a storage unit 102, a calculation unit 103, an operation unit 104, an input / output unit 105, and a display unit 106. The temporary storage unit 101, the storage unit 102, the operation unit 104, the input / output unit 105, and the display unit 106 are all connected to the calculation unit 103 via the BUS.

The calculation unit 103 is, for example, a CPU (Central Processing Unit). The calculation unit 103 has the average work time calculation unit 12, the movement time calculation unit 13, the scheduled completion time calculation unit 14, the machining planning unit 15, and the information management unit of the production control device 1 according to the control program stored in the storage unit 102. 16. Each process of the average maintenance cost calculation unit 17 and the average loss cost calculation unit 18 is executed.

The temporary storage unit 101 is, for example, a RAM (Random Access Memory). The temporary storage unit 101 loads the control program stored in the storage unit 102 and is used as a work area of the calculation unit 103.

The storage unit 102 is a non-volatile memory such as a flash memory, a hard disk, a DVD-RAM (Digital Versatile Disc — Random Access Memory), and a DVD-RW (Digital Versatile Disc — ReWritable). The storage unit 102 stores in advance a program for causing the calculation unit 103 to perform the processing of the production control device 1, and supplies the data stored by this program to the calculation unit 103 according to the instruction of the calculation unit 103 to perform the calculation. The data supplied from the unit 103 is stored. The storage unit 11 is configured as a storage unit 102.

The operation unit 104 is an interface device that connects an input device such as a keyboard and a pointing device and an input device such as a keyboard and a pointing device to the BUS. For example, in the case of a configuration in which information is directly input to the production control device 1, the input information is supplied to the calculation unit 103 via the operation unit 104.

The input / output unit 105 is a network termination device or wireless communication device connected to the network, and a serial interface or LAN (Local Area Network) interface connected to them. The input / output unit 105 functions as a machining planning unit 15 and an information management unit 16.

The display unit 106 is a display device such as a CRT (Cathode Ray Tube) or an LCD (Liquid Crystal Display). For example, in the case of a configuration in which information is directly input to the production control device 1, the display unit 106 displays an operation screen. When the production control device 1 is configured to display the progress information and the manufacturing record information, the display unit 106 displays the progress information and the manufacturing record information.

Storage unit 11, average work time calculation unit 12, travel time calculation unit 13, scheduled completion time calculation unit 14, processing planning unit 15, information management unit 16, average maintenance cost calculation of the production control device 1 shown in FIGS. 1 and 8. The processing of the unit 17 and the average loss cost calculation unit 18 is performed by the control program using the temporary storage unit 101, the calculation unit 103, the storage unit 102, the operation unit 104, the input / output unit 105, the display unit 106, and the like as resources. Do by doing.

In addition, the above hardware configuration and flowchart are examples, and can be arbitrarily changed and modified.

The central part for processing the production control device 1, such as the calculation unit 103, the temporary storage unit 101, the storage unit 102, the operation unit 104, the input / output unit 105, and the display unit 106, is a normal part regardless of the dedicated system. It can be realized using a computer system. For example, a computer program for performing the above operation is a computer-readable recording medium such as a flexible disk, a CD-ROM (Compact Disc --Read Only Memory), or a DVD-ROM (Digital Versatile Disc --Read Only Memory). The production control device 1 that executes the above-mentioned processing may be configured by storing and distributing the computer program in the computer and installing the computer program in the computer. Further, the production control device 1 may be configured by storing the computer program in a storage device of a server device on a communication network such as the Internet and downloading it by a normal computer system.

Further, when the function of the production control device 1 is realized by sharing the OS (Operating System) and the application program, or by coordinating the OS and the application program, only the application program part is used as a recording medium, a storage device, or the like. May be stored.

It is also possible to superimpose a computer program on a carrier wave and provide it via a communication network. For example, the computer program may be posted on a bulletin board system (BBS, Bulletin Board System) on the communication network, and the computer program may be provided via the communication network. Then, by starting this computer program and executing it in the same manner as other application programs under the control of the OS, the above processing may be executed.

It should be noted that the present invention enables various embodiments and modifications without departing from the broad spirit and scope of the present invention. Moreover, the above-described embodiment is for explaining the present invention, and does not limit the scope of the present invention. That is, the scope of the present invention is indicated not by the embodiment but by the claims. And various modifications made within the scope of the claims and within the equivalent meaning of the invention are considered to be within the scope of the invention.

This application is based on Japanese Patent Application No. 2019-92814 filed on May 16, 2019. The specification, claims, and drawings of Japanese Patent Application No. 2019-92814 are incorporated herein by reference.

1 Production control device, 2 Transfer device, 3 Transport control device, 4 Processing equipment, 5 Manufacturing start instruction tool, 11 Storage unit, 12 Average work time calculation unit, 13 Movement time calculation unit, 14 Scheduled completion time calculation unit, 15 Processing Planning unit, 16 Information management unit, 17 Average maintenance cost calculation unit, 18 Average loss cost calculation unit, 100 Production control system, 101 Temporary storage unit, 102 Storage unit, 103 Calculation unit, 104 Operation unit, 105 Input / output unit, 106 Display Department.

Claims (13)

A plurality of processing equipments that execute a plurality of processes for producing a product, a plurality of transport devices that transport the input products to the processing equipment, and a transport management device that instructs the transport equipment to transport the input products. A production control system including a production control device that allocates the process to the processing equipment.
The production control device is
A storage unit that stores production record information including past actual working hours of the processing equipment,
With respect to the process to be assigned, a determination unit for determining whether or not there are a plurality of the processing facilities to be calculated that can execute the process and are in operation.
When there are a plurality of the processing equipments to be calculated, an average working time calculation unit that calculates the average working time, which is the average of the past actual working hours for each of the processing equipments to be calculated, based on the production record information.
When there are a plurality of the processing equipments to be calculated, a movement time calculation unit for calculating the movement time of the transfer device to the processing equipment for each processing equipment to be calculated, and a movement time calculation unit.
Scheduled completion to calculate the scheduled completion time of the work for each of the processing equipment to be calculated based on the average working time, the moving time, and the processable time when the processing equipment to be calculated can execute the process. Time calculation unit and
A process allocation unit that allocates the process to the processing facility with the earliest scheduled completion time, and
A transfer information transmission unit that transmits transfer information indicating the processing equipment to which the process allocation unit has been assigned to the transfer management device, and a transfer information transmission unit.
Have,
The transport control device is a production control system that transmits to the transport device a movement instruction for transporting the input product to the process to the processing equipment indicated by the transport information received from the production control device. The production control device is
It also has a detector that detects the stoppage of the processing equipment.
When the detection unit detects that the processing equipment has stopped,
The determination unit determines whether or not there are a plurality of the processing equipments to be calculated that can execute the process and are operating for the process assigned to the stopped processing equipment.
When there are a plurality of the processing equipments to be calculated, the average working time calculation unit calculates the past average working time for each of the processing equipments to be calculated based on the production record information.
When there are a plurality of the processing equipments to be calculated, the movement time calculation unit calculates the movement time of the transfer device to the processing equipments for each of the processing equipments to be calculated.
The scheduled completion time calculation unit is based on the average work time, the travel time, and the processable time at which the processing equipment to be calculated can execute the process, and the work for each processing equipment to be calculated is performed. Calculate the scheduled completion time and
The process allocation unit allocates the process to the processing facility having the earliest scheduled completion time.
The transfer information transmission unit transmits transfer information indicating the processing equipment to which the process allocation unit has assigned the process to the transfer management device.
The transport management device receives a movement instruction for transporting the input product to the process to the processing equipment indicated by the transport information received from the production control device, and the transport adopted for transporting the input product to the process. Send to device,
The production control system according to claim 1. The determination unit does not determine whether or not there are a plurality of the processing equipments to be calculated that can execute the process and are in operation for the process in which the input product has already been input to the stopped processing equipment. The production control system according to claim 2. The detection unit detects the restoration of the processing equipment and
When the detection unit detects the restoration of the processing equipment,
The determination unit determines whether there are a plurality of the processing equipments to be calculated that can execute the process and are operating in the same process as the process that can be executed by the restored processing equipment assigned to the processing equipment. Judge whether or not
When there are a plurality of the processing equipments to be calculated, the average working time calculation unit calculates the past average working time for each of the processing equipments to be calculated based on the production record information.
When there are a plurality of the processing equipments to be calculated, the movement time calculation unit calculates the movement time of the transfer device to the processing equipments for each of the processing equipments to be calculated.
The scheduled completion time calculation unit performs work for each of the processing equipments to be calculated based on the average work time, the movement time, and the processable time when the processing equipment to be calculated can execute the process. Calculate the scheduled completion time of
The process allocation unit reassigns the process to the processing facility having the earliest scheduled completion time.
The transfer information transmission unit transmits transfer information indicating the processing equipment to which the process allocation unit has reassigned the process to the transfer management device.
The transport management device receives a movement instruction for transporting the input product to the process to the processing equipment indicated by the transport information received from the production control device, and the transport adopted for transporting the input product to the process. Send to device,
The production control system according to claim 2 or 3. The production control device is
When there are a plurality of the processing equipments to be calculated, the average maintenance cost calculation unit for calculating the past average maintenance costs for each of the processing equipments to be calculated is further provided based on the production record information.
The process allocation unit allocates the process to the processing equipment having the earliest scheduled completion time, and when there are a plurality of the processing equipments having the same scheduled completion time, the process allocation unit corresponds to the processing equipment having the lowest average maintenance cost. The production control system according to any one of claims 1 to 4, wherein a process is assigned. The production control device is
When there are a plurality of the processing equipments to be calculated, the average loss cost calculation unit for calculating the past average loss cost for each of the processing equipments to be calculated is further provided based on the production record information.
The process allocation unit allocates the process to the processing equipment having the earliest scheduled completion time, and when there are a plurality of the processing equipments having the same scheduled completion time, the process is assigned to the processing equipment having the lowest average loss cost. The production control system according to any one of claims 1 to 4. The production control device is
When there are a plurality of the processing equipments to be calculated, the average maintenance cost calculation unit that calculates the past average maintenance cost for each of the processing equipments to be calculated based on the production record information, and the average maintenance cost calculation unit.
When there are a plurality of the processing equipments to be calculated, the average loss cost calculation unit that calculates the past average loss cost for each of the processing equipments to be calculated based on the production record information, and the average loss cost calculation unit.
Have more
The process allocation unit allocates the process to the processing equipment having the earliest scheduled completion time, and when there are a plurality of the processing equipments having the same scheduled completion time, the process allocation unit corresponds to the processing equipment having the lowest average maintenance cost. The production control system according to any one of claims 1 to 4, wherein a process is assigned and the process is assigned to the processing facility having the lowest average loss cost when there are a plurality of the processing facilities having the same average maintenance cost. .. The production control device is
When there are a plurality of the processing equipments to be calculated, the average maintenance cost calculation unit that calculates the past average maintenance cost for each of the processing equipments to be calculated based on the production record information, and the average maintenance cost calculation unit.
When there are a plurality of the processing equipments to be calculated, the average loss cost calculation unit that calculates the past average loss cost for each of the processing equipments to be calculated based on the production record information, and the average loss cost calculation unit.
Have more
The process allocation unit allocates the process to the processing equipment having the earliest scheduled completion time, and when there are a plurality of the processing equipments having the same scheduled completion time, the process is assigned to the processing equipment having the lowest average loss cost. The production control system according to any one of claims 1 to 4, wherein when there are a plurality of the processing equipments having the same average loss cost, the process is assigned to the processing equipment having the lowest average maintenance cost. Based on the production plan of the product, the takt time of the processing equipment is calculated, and the standard travel distance of the transport device for transporting the input product from the processing equipment to the processing equipment in the next process is set to the standard moving distance of the processing equipment. A standard speed calculation unit that calculates the standard speed of the transfer device by dividing by the tact time,
When the standard speed is faster than the speed upper limit value, the moving speed of the transport device is set to the speed upper limit value, and when the standard speed is slower than the speed upper limit value, the moving speed of the transport device is set to the standard speed. The movement speed setting unit to be set to
The production control system according to any one of claims 1 to 5 to 8. Based on the production plan of the product, the takt time of the processing equipment is calculated, and the standard travel distance of the transport device for transporting the input product from the processing equipment to the processing equipment in the next process is set to the standard moving distance of the processing equipment. A standard speed calculation unit that calculates the standard speed of the transfer device by dividing by the tact time,
When the standard speed is faster than the speed upper limit value, the moving speed of the transport device is set to the speed upper limit value, and when the standard speed is slower than the speed upper limit value, the moving speed of the transport device is set to the standard speed. The movement speed setting unit to be set to
Recovery speed is calculated by dividing the re-movement distance of the transfer device used for transporting the input product to the process assigned to the stopped processing equipment by the tact time of the processing equipment in the previous process. Speed calculation unit and
When the recovery speed is faster than the speed upper limit value, the moving speed from the current position of the transport device to the processing facility to which the process is assigned is set to the speed upper limit value, and the recovery speed is higher than the speed upper limit value. If it is slow, a moving speed resetting unit that sets the moving speed from the current position of the conveying device to the processing equipment to which the process is assigned as the recovery speed, and
The production control system according to any one of claims 2 to 4. It is connected to a plurality of processing equipments that execute a plurality of processes for producing a product, and a transport management device that instructs a plurality of transport devices that transport the input products to the processing equipment to transport the input products. A production control device that allocates the process to the processing equipment.
A storage unit that stores production record information including past actual working hours of the processing equipment,
With respect to the process to be assigned, a determination unit for determining whether or not there are a plurality of the processing facilities to be calculated that can execute the process and are in operation.
When there are a plurality of the processing equipments to be calculated, an average working time calculation unit that calculates the average working time, which is the average of the past actual working hours for each of the processing equipments to be calculated, based on the production record information.
When there are a plurality of the processing equipments to be calculated, a movement time calculation unit for calculating the movement time of the transfer device to the processing equipment for each processing equipment to be calculated, and a movement time calculation unit.
Scheduled completion to calculate the scheduled completion time of the work for each of the processing equipment to be calculated based on the average working time, the moving time, and the processable time when the processing equipment to be calculated can execute the process. Time calculation unit and
A process allocation unit that allocates the process to the processing facility with the earliest scheduled completion time, and
A transfer information transmission unit that transmits transfer information indicating the processing equipment to which the process allocation unit has been assigned to the transfer management device, and a transfer information transmission unit.
Production control equipment equipped with. A plurality of processing equipments that execute a plurality of processes for producing a product, a plurality of transport devices that transport the input products to the processing equipment, and a transport management device that instructs the transport equipment to transport the input products. And a production control method executed by a production control device that allocates the process to the processing equipment.
The production control device executes
For the process to be assigned, a step of determining whether or not there are a plurality of the processing facilities to be calculated in which the process can be executed and is in operation, and
When there are a plurality of the processing equipments to be calculated, the average working time which is the average of the past actual working hours for each of the processing equipments to be calculated based on the production record information including the past actual working hours of the processing equipments. And the steps to calculate
When there are a plurality of the processing equipments to be calculated, the step of calculating the moving time of the transfer device to the processing equipments for each of the processing equipments to be calculated, and
A step of calculating the scheduled completion time of the work for each of the processing equipments to be calculated based on the average working time, the moving time, and the processable time when the processing equipment to be calculated can execute the process. ,
The step of allocating the process to the processing facility having the earliest scheduled completion time, and
A step of transmitting transfer information indicating the processing equipment to which the process is assigned to the transfer management device, and
The transport management device executes
A step of transmitting a movement instruction for transporting the input product to the process to the processing equipment indicated by the transport information received from the production control device to the transport device, and a step of transmitting the movement instruction to the transport device.
Production control method. It is connected to a plurality of processing equipments that execute a plurality of processes for producing a product, and a transport management device that instructs a plurality of transport devices that transport the input products to the processing equipment to transport the input products. A computer that assigns the process to the processing equipment,
For the process to be assigned, a determination unit that determines whether or not there are a plurality of the processing facilities to be calculated that can execute the process and are in operation.
When there are a plurality of the processing equipments to be calculated, the average working time which is the average of the past actual working hours for each of the processing equipments to be calculated based on the production record information including the past actual working hours of the processing equipments. Average working time calculation unit to calculate
A movement time calculation unit that calculates the movement time of the transfer device to the processing equipment for each of the processing equipments to be calculated when there are a plurality of the processing equipments to be calculated.
Scheduled completion to calculate the scheduled completion time of the work for each of the processing equipment to be calculated based on the average working time, the moving time, and the processable time when the processing equipment to be calculated can execute the process. Time calculation unit,
A process allocation unit that allocates the process to the processing facility with the earliest scheduled completion time, and
A transport information transmission unit, in which the process allocation unit transmits transport information indicating the processing equipment to which the process is assigned to the transport management device.
A program that functions as.

Images