DE112018007893T5 - PRODUCTION PLANNING DEVICE AND PRODUCTION PLANNING PROCEDURES - Google Patents

Abstract

A production planning device (4) is provided which comprises a control unit (41) including a production plant operating condition calculation unit for calculating a production plant operating condition, which is an operating condition of a production plant (1), according to a production plan, and for creating production plant operating condition information; a utility plant operating condition calculating unit for calculating a utility plant operating condition, which is an operating condition of a utility plant (3) for supplying a resource to the production plant in which the operating condition has changed based on the production plant operating condition information, and for creating utility operating condition information; a cost calculation unit for calculating total costs of resources to be consumed in the production facility (1) and the utility facility (3) on the basis of the production facility operating condition information and the utility facility operating condition information; a determination unit for determining whether the production plan needs to be changed based on the total cost; and a production plan changing unit for changing the production plan based on the determination by the determining unit and comprising a working memory (43) for storing the production plan; and in this way created an environmentally friendly production plan.

Description

Field of technology

The present invention relates to a production planning device for creating a production plan for a product in a plant.

State of the art

In recent years, there has been an increased demand for environmental measures such as energy saving and resource saving in production plants in view of increased environmental awareness and the aspect of cost reduction. As part of such environmental measures, it is necessary to make an environmentally sound production plan, and the same function is also needed in a product planning device that automatically makes a production plan.

As a method of realizing such an environmentally friendly production plan, Patent Literature 1 proposes a method of creating a production plan in which energy saving is realized in such a way that in a production planning device, a production plan is made taking into account the quality of the production or the delivery date of the products by modulating a workflow for the production of the products, the production capacity of a production facility and the like, and which simulates the production of products, the production plan is based on a query response, which is the information about a quantity of electricity to be provided that is supplied by a Power producer, such as an energy company, is sent changed when the production plan is created.

List of citations

Patent literature

Patent Literature 1: JP 2016-081074 A ( 1 , 2 , 3 and 4th )

Summary of the invention

Technical task

In Patent Literature 1, an electricity consumption list or an electricity consumption characteristic table showing the relationship between the amount of energy consumption and the operating conditions of each production facility is provided, and a production plan that realizes energy saving can be made by adjusting the electricity consumption in the production facilities as a whole Using the electricity consumption list or the table of characteristics for electricity consumption, and by changing the production plan, these can be created in order to achieve the reduction in the amount of electricity requested by the query response on the part of the electricity producer.

However, a problem in Patent Literature 1 is that the only information about the electricity to be provided is the query response sent from the electricity generator when the electricity situation is strained, and in normal times when the electricity situation is not strained, the electricity consumption in the production schedule does not become adequately taken into account and no production plan can be drawn up that realizes energy savings.

Another problem in Patent Literature 1 is that only electricity is considered as a resource supplied to the production facility, and other resources such as water are not considered, so that a green production plan that would realize adequate resource savings cannot be drawn up.

The present invention was made in order to solve the above problems and aims to realize a production planning apparatus which can make an environmentally sound production plan taking into account also the operating conditions of a facility related to the production plan but not is the production facility.

Technical solution

In order to solve the above problems, a production planning apparatus of the present invention comprises a control unit, the production equipment operating condition calculating unit for calculating the production equipment, which is an operating condition of a production facility, according to a production plan, and preparing production equipment operating condition information; a utility operating condition calculating unit for calculating a utility operating condition which is a utility operating condition for supplying a resource to the production facility in which the operating condition has changed based on the production facility operating condition information, and to create utility operating condition information; a cost calculating unit for calculating a total cost of resources to be consumed in the production facility and the utility facility based on the production facility operating condition information and the utility facility operating condition information; a determining unit for determining whether the production plan needs to be changed based on the total cost; and a production plan changing unit for changing the production plan based on the determination by the determining unit; and a working memory to store the production plan.

Advantageous Effects of the Invention

The production planning device according to the present invention comprises the components described above and is thereby able to create an environmentally friendly production plan, also taking into account the operating conditions of a plant related to the production plan, which is not the production plant.

Figure list

• 1 Fig. 13 is a configuration diagram showing an example of a production planning system according to a first embodiment of the present invention;
• 2 Fig. 13 is a configuration diagram showing an example of a production planning apparatus according to the first embodiment of the present invention;
• 3 Fig. 13 is a configuration diagram showing an example of a functional configuration of a control unit of the production planning apparatus according to the first embodiment of the present invention;
• 4th Fig. 13 is a data configuration diagram showing an example of process information according to the first embodiment of the present invention;
• 5 Fig. 13 is an explanatory diagram showing the sequences of production processes according to the first embodiment of the present invention;
• 6th Fig. 13 is a data configuration diagram showing an example of production capacity information according to the first embodiment of the present invention;
• 7th Fig. 13 is a data configuration diagram showing an example of process operation information according to the first embodiment of the present invention;
• 8th Fig. 13 is a data configuration diagram showing an example of plant operation information according to the first embodiment of the present invention;
• 9 Fig. 13 is a data configuration diagram showing an example of production plan information according to the first embodiment of the present invention;
• 10 Fig. 13 is a data configuration diagram showing an example of calculation time information according to the first embodiment of the present invention;
• 11 Fig. 13 is a data configuration diagram showing an example of calculation time unit information according to the first embodiment of the present invention;
• 12th Fig. 13 is a data configuration diagram showing an example of production resource information in an assembling process according to the first embodiment of the present invention;
• 13th Fig. 13 is a data configuration diagram showing an example of production resource information in a painting process according to the first embodiment of the present invention;
• 14th Fig. 13 is a data configuration diagram showing an example of production resource information in an inspection process according to the first embodiment of the present invention;
• 15th Fig. 13 is a data configuration diagram showing an example of production plant operating condition information of the assembling process according to the first embodiment of the present invention;
• 16 Fig. 13 is a data configuration diagram showing an example of production plant operating condition information of the painting process according to the first embodiment of the present invention;
• 17th Fig. 13 is a data configuration diagram showing an example of production plant operating condition information of the inspection process according to the first embodiment of the present invention;
• 18th Fig. 13 is a data configuration diagram showing an example of utility system operation plan information of a compressed air system according to the first embodiment of the present invention;
• 19th Fig. 13 is a data configuration diagram showing an example of utility plant operation plan information of a water treatment plant according to the first embodiment of the present invention;
• 20th Fig. 13 is a data configuration diagram showing an example of supply resource information of the compressed air supply system according to the first embodiment of the present invention;
• 21 Fig. 13 is a data configuration diagram showing an example of supply resource information of the water treatment plant according to the first embodiment of the present invention;
• 22nd Fig. 13 is a data configuration diagram showing an example of utility equipment operating condition information of the compressed air supply equipment according to the first embodiment of the present invention;
• 23 Fig. 13 is a data configuration diagram showing an example of utility plant operating condition information of the water treatment plant according to the first embodiment of the present invention;
• 24 Fig. 13 is a data configuration diagram showing an example of resource consumption information according to the first embodiment of the present invention;
• 25th Fig. 13 is a data configuration diagram showing an example of charge item information according to the first embodiment of the present invention;
• 26th Fig. 13 is a data configuration diagram showing an example of cost information according to the first embodiment of the present invention;
• 27 Fig. 13 is a data configuration diagram showing an example of production plan change information according to the first embodiment of the present invention;
• 28 Fig. 13 is a data configuration diagram showing an example of changed production plan information according to the first embodiment of the present invention;
• 29 Fig. 13 is a data configuration diagram showing an example of changed cost information according to the first embodiment of the present invention;
• 30th Fig. 13 is a flowchart showing an example of a flow of processing of production plan change according to a first embodiment of the present invention;
• 31 Fig. 13 is a data configuration diagram showing an example of utility operation plan information in a compressed air utility according to a second embodiment of the present invention;
• 32 Fig. 13 is a data configuration diagram showing an example of previous utility operation plan information in the compressed air utility according to the second embodiment of the present invention;
• 33 Fig. 13 is a data configuration diagram showing an example of utility operation plan information for comparison in the compressed air utility according to the second embodiment of the present invention;
• 34 Fig. 13 is a data configuration diagram showing an example of utility equipment operating condition information in the compressed air utility equipment according to the second embodiment of the present invention;
• 35 Fig. 13 is a flowchart showing an example of a flow of processing of production plan change according to the second embodiment of the present invention;
• 36 Fig. 13 is a configuration diagram showing an example of a functional configuration of a control unit of a production planning apparatus according to a third embodiment of the present invention;
• 37 Fig. 13 is a data configuration diagram showing an example of service plan change information according to the third embodiment of the present invention;
• 38 Fig. 13 is a data configuration diagram showing an example of utility plant operation plan information after changing a utility plan in a water treatment plant according to the third embodiment of the present invention;
• 39 Fig. 13 is a flowchart showing an example of a flow of processing of production plan change according to the third embodiment of the present invention;
• 40 Fig. 13 is a configuration diagram showing an example of a functional configuration of a control unit of a production planning apparatus according to a fourth embodiment of the present invention;
• 41 Fig. 13 is a data configuration diagram showing an example of operating condition change information according to the fourth embodiment of the present invention;
• 42 Fig. 13 is a data configuration diagram showing an example of changed production line operating condition information of an assembling process according to the fourth embodiment of the present invention;
• 43 Fig. 13 is a data configuration diagram showing an example of changed production line operating condition information of a painting process according to the fourth embodiment of the present invention;
• 44 Fig. 13 is a data configuration diagram showing an example of changed production line operating condition information of an inspection process according to the fourth embodiment of the present invention;
• 45 Fig. 13 is a flowchart showing an example of a flow of processing of production plan change according to the fourth embodiment of the present invention;
• 46 Fig. 13 is a configuration diagram showing an example of a functional configuration of a control unit of a production planning apparatus according to a fifth embodiment of the present invention;
• 47 Fig. 13 is a configuration diagram showing an example of a production planning system according to a sixth embodiment of the present invention;
• 48 Fig. 13 is a configuration diagram showing an example of a functional configuration of a control unit of a production planning apparatus according to the sixth embodiment of the present invention;
• 49 Fig. 13 is a configuration diagram showing an example of information on the disposal plant operation plan of a sewage treatment plant according to the sixth embodiment of the present invention; and
• 50 Fig. 13 is a configuration diagram showing an example of waste information of the sewage treatment plant according to the sixth embodiment of the present invention.

Description of the embodiments

Embodiments of a production planning device according to the present invention are described in more detail below with reference to the drawings. In the drawings listed below, the same or corresponding sections are identified by the same reference symbols. It should be noted that the present invention is not limited to these embodiments.

First embodiment

1 Fig. 13 is a configuration diagram showing an example of a production planning system according to a first embodiment of the present invention. As in 1 shown includes a production planning system 100 five production plants 1 , a production control device 2 , a supply system 3 , a production planning device 4th , a display device 5 and a network 6th . The production planning system 100 According to the description includes five production plants 1 . However, the invention is not applicable to the case of five production lines 1 limited, and they can have any number of production lines 1 where each number is four or less or six or more. The production planning system 100 According to the description, includes only one supply system 3 . However, the invention is not in the case of a single utility system 3 limited, and they can have two or more utilities 3 include.

The production facility 1 is an equipment used for manufacturing products, and it includes, for example, production equipment such as an injection molding machine, an extrusion molding machine, a lathe and a grinding machine for processing raw materials for products, assembly equipment for assembling products by tightening components such as Screws and nuts on the products or testing equipment, such as magnetic particle testing equipment, radiation testing, and penetrant testing equipment.

The production control device 2 is a device for controlling the production plant 1 according to the production plan information, which is information on a plan for manufacturing products, and manages the manufacturing of products. The production control device 2 is for example a programmable logic controller (PLC) or something similar. The production plan information is information obtained by the production planning device 4th is obtained, and it will be described in detail later.

The supply system 3 is a system for supplying the production plant 1 with resources. The resources with which the utility system 3 the production facility 1 are for example cold water, hot water, compressed air or electricity. The supply system 3 creates a supply system information relating to the system and sends it to the production planning device 4th out. The utility information will be described later. It is not shown in the illustration, but the production plant 1 and the utility system 3 are connected via a supply line for providing the resources, such as a water line or a compressed air line or a power line. The supply system 3 is an equipment that is not controlled by the production control device 2 can be controlled and the production plant 1 and the utility system 3 can be managed by different administrators. The supply system 3 is a plant that is just the production plant 1 supplied with resources by the production control device 2 is controlled and they supplies the production facility 1 not if this is not from the production control device 2 is controlled.

The production planning device 4th has various kinds of information related to a production plan, obtains the utility information pertaining to the utility 3 from the supply system 3 , and changes based on the obtained utility plant information and the production plant information regarding the production plant 1 the production plan information of products in the production plant information to suitable production plan information in which the supply plant 3 is taken into account. The production planning device 4th gives the changed production plan information to the production control device 2 and the display device 5 out. The utility plant information, the production plant information, a method of changing the production plan in the production planning device 4th and the production plan information will be described in detail later.

The display device 5 is a device for creating and displaying a screen display based on the production plan information received from the production planning device 4th is obtained. The display device 5 is a device that is equipped with a display, such as a liquid crystal display or an electroluminescent display (EL), and which shows the screen image created on the display. The display device 5 is described as relating to the production planning device 4th separate device. The display device 5 however, it is not limited to one related to the production planning device 4th to be a separate device and the display device 5 can into the production planning device 4th be integrated, that is, the production planning device 4th can have a display function.

The network 6th is a network to connect the production plant 1 and the production control device 2 to connect the production control device 2 and the production planning device 4th , to connect the supply system 3 and the production planning device 4th and to connect the production planning device 4th and the display device 5 and it is a field network, for example a Control & Communication Link (CC-Link, registered trademark), a widespread network such as Ethernet (registered trademark) or input / output lines specially designed for this purpose. The production facility 1 and the production control device 2 , the production control device 2 and the production planning device 4th , the utility system 3 and the production planning device 4th and the production control device 4th and the display device 5 are in the same network as all 6th connected described. However, the invention is not limited to the case that all are in the same network 6th connected, and each pair can be connected on their own network.

The production planning device 4th is described in more detail below.

2 Fig. 13 is a configuration diagram showing an example of a production planning apparatus according to the first embodiment of the present invention. As in 2 shown includes the production planning device 4th a control unit 41 , a main memory 42 , a working memory 43 , a communication unit 44 and an input unit 45 . The production planning device 4th furthermore comprises a power source (not shown) via which the respective unit is supplied with power.

The control unit 41 is a device for controlling the production planning device 4th and controls the main memory 42 , the memory 43 , the communication unit 44 and the input unit 45 and changes based on that from the utility 3 received supply plant information and the production plant information of the production plant 1 the production plan information of products in the production plant information to suitable production plan information in which the supply plant 3 is taken into account. The control unit 41 can be a processor, for example a central processing unit (CPU), a single integrated circuit, for example a field-programmable gate array (FPGA) or a large-scale integration (LSI), or a combination thereof. The method for changing the production plan will be described later by the control unit 41 changes the production plan information of products in the production plant information to suitable production plan information at which the utility plant 3 is taken into account, based on the supply system information of the supply system 3 and the production plant information of the production plant 1 . In the following description it is assumed that the control unit 41 is a CPU that performs the software-side control processing.

The main memory 42 is a storage device different from the control unit 41 programs executed, related data when the control unit 41 executes the various programs, data generated as a result of the execution of the respective program by the control unit 41 and the like stores. In the first embodiment of the present Invention is a program for production plan change 421, through which the control unit 41 the production plan information of products based on the production plant information of the production plant 1 and the utility information of the utility 3 changes, saved as a program. The main memory 42 is a non-volatile memory such as a flash memory, a read-only memory (ROM), a hard disk drive (HDD), a solid-state drive (SSD) or a memory card reader / writer.

The RAM 43 is a storage device to which the control unit 41 directly accesses when it is executing a program and into the various programs and data that are in main memory 42 are saved, copied and temporarily saved there. The RAM 43 is a volatile memory, for example a RAM memory. The control unit 41 runs the various programs by temporarily storing them, usually in main memory 42 stored programs in the main memory 43 and sequentially reading them from memory 43 out.

The communication unit 44 is a device that has a receiver that receives data and a transmitter that sends data and communicates with the outside world. The control unit 41 receives the supply system information from the supply system 3 and gives the production plan information of products to the production control device 2 and the display device 5 via the communication unit 44 out.

The input unit 45 is a device that receives input from a user, and it is, for example, a keyboard, a mouse, a touchpad, or a touch panel with a display function.

The following describes the method for changing the production plan by means of which the control unit 41 the production plan information of products based on the production plant information of the production plant 1 and the utility information of the utility 3 changes. To change the production plan information of products, the control unit performs 41 processing of the production plan change to create a production plan of products based on the production plant information of the production plant 1 and the utility information of the utility 3 to change. The processing of the production plan change is carried out by the control unit 41 executes the production plan change program 421 stored in main memory 42 is stored.

3 Fig. 13 is a configuration diagram showing an example of a functional configuration of the control unit of the production planning apparatus according to the first embodiment of the present invention. As in 3 shown includes the control unit 41 a production plant operating condition calculating unit 411 for calculating the production plant operating condition, a communication control unit 412 to control the communication, a utility plant operating condition calculating unit 413 for calculating the utility plant operating condition, a unit for calculating the resource consumption 414 to the total of the Calculate resources used in the production facility 1 and the supply system 3 are intended for consumption, a cost calculation unit 415 to calculate the cost of the resources for consumption in the production plant 1 and the supply system 3 a determination unit 416 for determining whether a production plan needs to be changed, and a production plan changing unit 417 for changing the production plan, the production control device 2 , the utility system 3 and the display device 5 illustrated for the purposes of description. The RAM 43 includes a utility billing database 432, which is a database that is generated during the control unit 41 executes the production plan change program 421, and comprises a production calculation database 431, an expense item database 433, a consumption target database 434 and a production plan change database 435 which are temporary copies of the databases held in the main memory 42 are stored. In 3 a processing flow of each function block is indicated by a solid arrow and a data flow is indicated by a broken arrow. The production calculation database 431 and the utility calculation database 432 are regularly copied and in main memory 42 saved.

The production equipment operating condition calculation unit 411 calculates the production equipment operating conditions, which are the operating conditions of the production equipment 1 on the basis of the production plant information regarding the production plant 1 obtained from the production calculation database 431 stored in memory 43 is stored, and it creates production plant operating condition information. The production plant information is composed of process information that specifies the production processes for producing production, production capacity information that specifies a production capacity per unit of time for the respective production process, and process operation information that specifies the plant operating procedures that the respective production process includes, plant operating information that indicates the time that the respective plant operating process of the production plant 1 , which belongs to the respective production process, needs production plan information which indicates the start time for starting the production of the respective product and the production quantity to be produced, calculation time information which indicates the time in which the production plant 1 can be in operation, which is used for calculation, calculation time unit information which indicates the time unit for calculating the operating conditions, and production resource information which indicates the resources that are intended for consumption in the respective production process.

First, referring to FIG 4th to 14th , the process information, the production capacity information, the process operation information, the plant operation information, the production plan information, the calculation time information, the calculation time unit information, and the production resource information that are the production plant information. In the following it is assumed that the supply system 3 is a compressed air supply system that the production plant 1 with compressed air, which is a resource, and a water treatment plant, which is the production facility 1 with water, which is a resource, and purifies water that has been used once so that it can be reused.

4th Fig. 13 is a data configuration diagram showing an example of process information according to the first embodiment of the present invention. In 4th is the process information for a product A and (b) is the process information for a product B. In 4th The process information is composed of three types of information, which are the “production process” which stands for a production process in which the processing is to be carried out, the “previous process” which takes place immediately before the production process, and the "Subsequent process" that should take place immediately after the production process. Assembly refers to an assembly process that consists of assembling components into a product, painting refers to a painting process that consists of applying a layer of paint for decorative or protective purposes to the surface of each component, and testing refers to a testing process that consists of check whether the quality of the manufactured product complies with the norm. In the illustration, every production process whose previous process is start stands for an initial process and every production process whose subsequent process is at the end stands for a final process.

As in (a) in 4th stated, the production process information about Product A includes three processes that are assembly, painting, and testing, and the order of the processes is assembly, painting, and testing. As in (b) in 4th stated, the production process information about product B also includes three processes that are assembly, painting and testing, and the order of the processes is painting, assembly and testing.

5 Fig. 13 is an explanatory diagram showing orders of production processes according to the first embodiment of the present invention. 5 FIG. 13 is the explanatory diagram illustrating the production process information of the product A and the product B shown in FIG 4th shown as a flow chart, and (a) of 5 Fig. 13 is an explanatory diagram representing the product A contained in (a) of 4th is indicated, and (b) of 5 FIG. 13 is an explanatory diagram representing the product B contained in (b) of FIG 4th is specified. As in (a) of 5 indicated, the production process of Product A advances from the start of the process to the assembling process, the painting process, and the inspection process in that order, and then the process ends. As in (b) of 5 indicated, the production process of Product B advances from the start of the process to the painting process, the assembling process, and the inspection process in that order, and then the process ends.

6th Fig. 13 is a data configuration diagram showing an example of production capacity information according to the first embodiment of the present invention. In 6th the production capacity information consists of three types of information, which is the "production process" which represents a production process in which processing takes place, the "target product" which represents a product for which processing is performed, and “production capacity”, which stands for the amount of products that can be processed through the production process in one hour. As in 6th stated, the assembly process and the painting process each have a production capacity of 30 pieces / hour when the target product is product A, and the assembly process and painting process each have a production capacity of 20 pieces / hour when the target product is product B. The inspection process has a production capacity of 30 pieces / hour if the target product is product A or product B. In 6th the production capacity is described as an indication of the amount of products that can be processed by the production process in one hour. However, production capacity is not limited to the amount of products that can be processed in one hour, and it can also be the amount of Products that can be processed in a predetermined amount of time, such as a day, two or more hours, or less than an hour, or it can be the time it takes to manufacture a product.

7th Fig. 13 is a data configuration diagram showing an example of the process operation information according to the first embodiment of the present invention. In 7th The process operation information is composed of two kinds of information, which is the “production process” indicating a production process in which processing is to be performed and the “plant operation” which is an operation of the production plant 1 involved in the production process. In the plant operations, start is an operation to the production plant involved in the production process 1 To start, assembly processing is an operation in which the production facility involved in the production process 1 Assembling products, painting processing is an operation in which the production facility involved in the production process 1 Products painted, test processing is an operation in which the production facility involved in the production process 1 Checks products, standby is an operating process in which there are no products to be processed in the production process and the production plant 1 is put into a dormant state, without any processing activity, finishing is an operational process carried out by the production facility involved in the production process 1 is performed to end the processing of each production process, and stop is an operation for stopping the production equipment involved in the production process 1 . Both the assembly processing and the painting processing is an operation process that varies depending on the type of product. As in 7th For example, as indicated, the assembly process has six plant operations that are specifically start, assembly processing product A, assembly processing product B, standby, finish processing, and stop.

8th Fig. 13 is a data configuration diagram showing an example of the plant operation information according to the first embodiment of the present invention. In 8th the plant operation information is composed of three types of information, which are the "production process", which indicates a production process in which the processing is to be carried out, the "plant operation", which is an operation of the production plant involved in the respective production process 1 and the "operating time", which indicates the time required for the respective plant operation. From the in 7th Plant operations mentioned above, assembly processing, painting processing, inspection processing and standby do not have a predetermined operating time, and the operating time of each operation varies depending on the kind and quantity of products to be manufactured, and therefore it is not included in the plant operating information. As in 8th For example, in the assembly process, the operation time of start is one hour, the operation time of finish processing is one hour, and the operation time of stop is 0 hours. It is therefore stated that the stopping process takes place in the production plant involved in the assembly process 1 does not require time.

9 Fig. 13 is a data configuration diagram showing an example of the production plan information according to the first embodiment of the present invention. In 9 the production plan information is composed of three types of information, which are the "target product" which indicates a product to be processed, the information "date and time of production start" which indicates a date and time, at / at which the production of the target product in the production facility 1 is to be started, and the "Production Quantity", which indicates a quantity of the target product that is in the production facility 1 should be produced. Production start date and time indicates that production of the target product should start on or after the specified time. As in 9 is specified, for example, the date and time of the start of production 07/01/2018 09:00 and the production quantity is 60 pieces for product A. That is, the production plan information shows that the production plant 1 the production of product A starts on 07/01/2018 at 09:00 or after and that the production quantity is 60 pieces.

10 Fig. 13 is a data configuration diagram showing an example of the calculation time information according to the first embodiment of the present invention. In 10 The calculation time information is composed of two kinds of information, which is “production processing” that indicates the start of processing or the end of processing of the production process, and “date and time of production processing” that indicates a date and indicates a time when the production processing can be processed. Production processing date and time indicates the date and time at which production process processing can start when production processing is started, and indicates the date and time at which production process processing must end when production processing is finished. As in 10 specified, the processing of the respective production process in the production facility 1 from 01.07.2018 at 00:00 and the processing of the respective Production process in the production facility 1 must be finished on 07/01/2018 at 11:59 p.m.

11 Fig. 13 is a data configuration diagram showing an example of the calculation time unit information according to the first embodiment of the present invention. In 11 the calculation time unit information consists of the “calculation time unit” indicating the time unit on the basis of which the production equipment operating condition calculation unit 411 determines the processing conditions of the production processes in the production equipment 1 calculated. As in 11 given, the production equipment operating condition calculation unit 411 calculates the production equipment operating conditions of the production processes in the production equipment 1 every 3,600 seconds. The calculation time unit is described as 3,600 seconds. However, the calculation time unit is not limited to 3,600 seconds and can be any time period, for example 7,200 seconds or 10,800 seconds.

In 12th to 14th data configurations of the production resource information of the respective production process are shown. 12th Fig. 13 is a data configuration diagram showing an example of production resource information in the assembling process according to the first embodiment of the present invention. 13th Fig. 13 is a data configuration diagram showing an example of production resource information in the painting process according to the first embodiment of the present invention. 14th Fig. 13 is a data configuration diagram showing an example of production resource information in the checking process according to the first embodiment of the present invention.

In 12th to 14th The production resource information is composed of six kinds of information, which are the “production process” indicating a production process in which processing is to take place, the “plant operation” which is an operation of the production facility involved in the production process 1 specifies the “resource”, which specifies a resource that is intended for consumption during plant operation, the “consumption amount”, which specifies a consumption amount of the resource, the “supply system” that the supply system 3 to supply the resource, and the "cost item", which indicates the name of a cost item that corresponds to the resource.

As in 12th to 14th shown, electricity, an operator, screws and compressed air are used as resources in the assembly process, electricity, an operator, paint A, paint B and water are used as resources in the painting process and electricity and an operator are used as resources in the testing process. It should be noted that an operator is a person who works in the production facility 1 carried out in the respective plant operation and 1 h indicates that an operator works for one hour (h). As in 12th stated, for example, the assembly processing of Product A in the assembly process needs four kinds of resources, namely electricity, screws, compressed air, and an operator.

Next, referring to FIG 15th to 17th , describes a method by which the production plant operating condition calculation unit 411 determines the operating conditions of the production plant 1 calculated, that is, the processing conditions of the production process created by the production facility 1 is carried out. In the following it is assumed that the time required for the transport of produced articles from one production process to another production process is included in the processing time of the respective production process, that produced articles are transported hourly as a batch from one production process to another and that the articles produced in the respective production process are transported to the next production process.

The production plant operating condition calculating unit 411 recalculates the production plant operating conditions for each production process based on the production plant information, that is, the process information, the production capacity information, the process operation information, the plant operation information, the production plan information, the calculation time information, the calculation time unit information and the production resource information 4th and 6th to 14th . For example, a case will be described below in which the plant operating condition calculation unit 411 calculates the plant operating conditions of the assembling process.

First, the production equipment operating condition calculating unit 411 obtains from the production calculation database 431 in the work memory 43 the production plant information, that is, the process information, the production capacity information, the process operation information, the plant operation information, the production plan information, the calculation time information, the calculation time unit information, and the production resource information 4th and 6th to 14th .

The production equipment operating condition calculation unit 411 obtains the production processes and the process order of the production processes of the respective product from the Process information according to 4th . For example, the production equipment operating condition calculating unit 411 detects that the product A includes three production processes - assembly, painting, and testing, and that the process order is assembly, painting and testing, and that the product B includes three production processes - assembly, painting and testing - includes, and that the process sequence is painting, assembly and testing.

Then, the production equipment operating condition calculation unit 411 acquires from the production capacity information 6th that the production capacity of the assembly process of product A is able to process 30 pieces per hour, and that the production capacity of the assembly process of product B is able to process 20 pieces per hour. The production plant operating condition calculation unit 411 further acquires from the process operation information 7th that the assembly process of product A includes five plant operations that are start, assembly processing of product A, standby, finishing and stop, and that the assembly process of product B includes five plant operations that are start, assembly processing of product B, standby, finishing and stop. The production equipment operating condition calculation unit 411 determines that the assembling processing of Product A in the assembling process of Product A processes 30 parts per hour based on the information obtained on the production capacity and the equipment operations.

Furthermore, the production equipment operating condition calculation unit 411 acquires from the equipment operating information 8th that in the assembly process the system process start takes one hour, the system process finishing takes one hour, the system process stop takes 0 hours. The production equipment operating condition calculation unit 411 further acquires from the production plan information 9 that for product A the date and time of the start of production is 07/01/2018 09:00 and the production quantity is 60 pieces, and that for production B the date and time of the start of production is 07/01/2018 13:00 and the production quantity is 60 pieces.

In addition, the production equipment operating condition calculation unit 411 acquires from the calculation time information after 10 that the production process in the production plant 1 can be started from 07/01/2018 00:00 and that the production process in the production plant 1 must be finished by 07/01/2018 23:59. The production plant operating condition calculation unit 411 also acquires from the calculation time unit information 11 that the production equipment operating condition calculating unit 411 the production equipment operating conditions of the production equipment 1 calculated every 3,600 seconds. Lastly, the production equipment operating condition calculation unit 411 acquires from the production resource information 12th to 14th , the names of the resources that are used in the respective production process, the consumption quantities of the resources, the supply system that supplies the respective resource, and the cost items that correspond to the resources.

Next, the production equipment operating condition calculation unit 411 calculates the production equipment operating conditions of the production equipment 1 based on the different types of information received. The production plant operating condition calculating unit 411 calculates that the assembly process of product A is to start on 07/01/2018 09:00 and that the assembly process of product B is to start on 07/01/2018 14:00, based on the date and time of the Production starts and the process order of the production processes of each product that have been received. It should be noted that the production of product B starts at 2:00 p.m., because the painting process of product B starts at 1:00 p.m. and the articles produced in the painting process are transported to the assembly process at 2:00 p.m.

The production equipment operating condition calculating unit 411 also calculates that the assembling processing of Product A in the assembling process of Product A processes 30 parts per hour and that the assembling processing of Product B in the assembling process of Product B processes 20 parts per hour, based on the over production capacity and the Information received from plant operations. As a result, it is calculated that the assembly processing for product A should start on 07/01/2018 09:00 and end on 07/01/2018 11:00, and the assembly processing for product B should start on 07/01/2018 14:00 and on 07/01/2018 17:00 should end.

Furthermore, the production plant operating condition calculation unit 411 derives that in order to start the production of product A on 07/01/2018 9:00 AM, the plant operating process Start must take place at 07/01/2018 08:00 AM, the standby plant operating process at 07/01/2018 11:00 AM by 2:00 p.m., the final processing plant operation must start at 5:00 p.m. and end at 6:00 p.m., and the stop plant operation must occur at 6:00 p.m., based on the information about the plant operating operations of the assembly process of the respective product and the Operating time of the respective plant operation that was obtained.

Lastly, the manufacturing equipment operating condition calculating unit 411 assigns the name of each resource consumed in each production process, the consumption amount of the resource, the utility that supplies the resource, and the cost item corresponding to the resource to each asset operation in each production process on the basis of the names of the resources consumed in the respective production process, the amounts consumed by the resources, the utility that supplies the respective resource, and the cost items that correspond to the resources that were received.

15th Fig. 11 illustrates a result of compiling the production equipment operating conditions of the assembly process of the production equipment 1 calculated by the production equipment operating condition calculation unit 411. 15th Fig. 13 is a data configuration diagram showing an example of production plant operating condition information of the assembling process according to the first embodiment of the present invention. In 15th the production equipment operating condition information of the assembling process is composed of six kinds of information, which is the “production process” indicating a production process in which processing is to take place, the information “date and time of operation” which is based on The basis of a calculation time unit indicates the date and time of the operation at which the production plant involved in the production process 1 should be in operation, the “product name”, which indicates a product that is to be manufactured, the “production quantity”, which indicates a quantity of products to be manufactured, the “plant operation”, the operating process of the production plant involved in the production process 1 and the information "Consumption Resources", which indicates resources that are intended for consumption in the respective system operating process, and their quantity. The name of the respective consumption resource is the name of the cost item of the resource that is intended for consumption.

The production plant operating condition calculation unit 411 calculates the production plant operating conditions of the painting process of the production plant 1 and the production plant operating conditions of the test process of the production plant 1 by substantially the same method as the method by which the manufacturing equipment operating condition calculating unit 411 determines the manufacturing equipment operating conditions of the assembly process of the manufacturing equipment 1 calculated. 16 Fig. 13 is a data configuration diagram showing an example of the production plant operating condition information of the painting process according to the first embodiment of the present invention. 17th Fig. 13 is a data configuration diagram showing an example of the production plant operating condition information of the inspection process according to the first embodiment of the present invention.

In the above description, the production equipment operating condition calculation unit 411 obtains the production equipment information from the production calculation database 431 in the work memory 43 in the specific order of receipt and calculates the plant operating conditions in the specific order of calculation based on the plant information that has been obtained. However, these orders are examples for the purpose of description and the order of obtaining in which the plant operating condition calculating unit 411 obtains the plant information, and the calculation order in which the plant operating conditions are calculated based on the obtained plant information are not shown restricts the orders described above, and these operations can occur in any order or at the same time.

Next, the production equipment operating condition calculation unit 411 stores the prepared production equipment operating condition information in the production calculation database 431 in the work memory 43 .

As in 3 As shown, the communication control unit 412 controls the communication involved in the transmission and receipt of information to and from the production control device 2 , the supply system 3 and the display device 5 takes place via the communication unit 44 . First, the communication control unit 412 obtains the production plant operating condition information 15th to 17th from the production calculation database 431 in memory 43 , extracts the consumption amount of a consumption resource associated with a utility and the date and time of the plant operation that needs the consumption resource from the obtained production plant operating condition information, and outputs it to the utility 3 that supplies the extracted consumption resource, an instruction to request the utility information regarding the utility 3 off, in the case of delivery of the consumption quantity of the consumption resource at the date and time of operation. For example, if the product A is to be manufactured in the assembly process, the instruction is to be sent from the communication control unit 412 to the utility 3 is issued, a request to the compressed air supply system, which is the Supply system 3 is to provide the supply system information relating to the compressed air supply system, which is the supply system 3 acts, in this case for the supply of 150 l compressed air on 07/01/2018 09:00 and 07/01/2018 10:00, based on the production plant operating conditions information in 15th . The utility information regarding the utility 3 will be described later.

Then, the communication control unit 412 receives the utility information from the utility 3 and stores the obtained utility information as the utility calculation database 432 in the working memory 43 . The utility plant information is composed of two kinds of information that are utility plant operation plan information that is a plant operation plan of the utility plant 3 and the utility resource information indicating the resources that are in each utility 3 are intended for consumption. The utility resource information can originally be found in utility calculation database 432 in memory 43 be stored and not in the utility system information that the communication control unit 412 receives from the utility system 3 receives.

In 18th and 19th are data configurations of the supply system operating plan information of the respective supply system 3 shown, and in 20th and 21 are data configurations of the supply resource information of the respective supply system 3 shown. 18th Fig. 13 is a data configuration diagram showing an example of the utility system operation plan information of the compressed air utility system according to the first embodiment of the present invention. 19th Fig. 13 is a data configuration diagram showing an example of the utility plant operation plan information of the water treatment plant according to the first embodiment of the present invention. 20th Fig. 13 is a data configuration diagram showing an example of the supply resource information of the compressed air supply system according to the first embodiment of the present invention. 21 Fig. 13 is a data configuration diagram showing an example of the supply resource information of the water treatment system according to the first embodiment of the present invention.

In 18th the supply system operating plan information is set in the compressed air supply system that the supply system 3 is composed of three types of information, which is the information "Date and time of operation", which, based on a calculation time unit, specifies a date and time of operation at which the compressed air supply system is to be in operation, the " Supply amount ", which specifies a supply amount of compressed air, and" Plant operation ", which specifies the operation of the compressed air supply system. The compressed air processing listed as a plant operation is a processing that indicates an operation in which air is compressed and sent to the production plant 1 is delivered. In 19th the supply system operating plan information is set in the water treatment system that the supply system 3 is composed of five types of information, which are the information "Date and time of operation", which, based on a calculation time unit, specifies a date and time of operation at which the water treatment system is to be in operation, the " Supply amount ", which indicates a supply amount of water, the information" treated water ", which indicates an amount of treated water that has been treated in the water treatment plant and is part of the water to be supplied, the information" supply water ", which contains an amount of Specifies water that consists of tap water or the like and is part of the water to be supplied, and the "plant operation", which specifies the operation of the water treatment plant.

For example, as in 18th shown, the compressed air supply system if the supply system 3 the compressed air supply system is pressure processing to supply 150 I compressed air on 07/01/2018 09:00 as a plant operation process according to the production plant operation condition information in the assembly process of the production plant 1 , as in 15th shown.

In 20th to 21 The utility resource information is composed of five types of information, which is the "utility facility," which is the utility facility 3 for the supply of resources indicates the "system operation", which is an operating process of the supply system 3 indicates the “Resource”, which indicates a resource that is consumed in the respective plant operation, the “Consumed amount”, which indicates a consumption amount of the resource, and the “Cost item”, which indicates the name of the cost item that corresponds to the resource. It should be noted that compressed air and treated water are not listed as resources because compressed air and treated water do not incur any costs, which means that there are no cost items for them and therefore their consumption quantities do not have to be taken into account. Supply water, which is listed as a cost item, is the cost item for water that has a cost.

As in 3 As shown, the communication control unit 412 outputs production plan information regarding the production plan obtained from the production plan changing unit 417 via the communication unit 44 to the production control device 2 and the display device 5 out. The production plan information obtained from the production plan changing unit 417 will be described in detail later.

The utility installation operating condition calculation unit 413 receives the utility installation information from the utility calculation database 432 in the main memory 43 and calculates the utility operating conditions of the utility 3 , based on the utility information that has been obtained. For example, a case will be described below in which the utility equipment operating condition calculation unit 413 determines the utility equipment operating conditions of the compressed air supply equipment that is the utility equipment 3 acts, calculated.

The utility system operating condition calculation unit 413 is obtained from the utility calculation database 432 in the working memory 43 the utility plant operation plan information contained in 18th and the utility resource information provided in 21 is specified, which is the supply system information of the compressed air supply system that the supply system 3 is, acts. Next, the utility system operating condition 413 calculates the utility system operating conditions of the compressed air supply system and prepares utility system operating condition information based on the obtained utility system operation plan information and utility resource information.

22nd Fig. 13 is a data configuration diagram showing an example of the utility equipment operating condition information of the compressed air utility equipment according to the first embodiment of the present invention. In 22nd the supply system operating condition information of the compressed air supply system is composed of five types of information, which are "supply system", "date and time of operation", "supply amount" and "consumption resource", which indicates the name of a resource that is included in the the respective plant operation is intended for consumption, and a consumption amount that is needed. The name of the respective consumption resource is the name of the cost item of the resource that is intended for consumption, and it is electricity. Like in 22nd the date and time of operation are 07/01/2018 09:00, the supply volume with compressed air is 150 I, the system operation is compressed air processing and the consumption resource is 500 Wh electricity in the compressed air supply system.

The utility system operating condition calculating unit 413 also calculates the utility system operating conditions for the water treatment system, as in the case of the compressed air supply system. 23 Fig. 13 is a data configuration diagram showing an example of utility plant operating condition information of the water using plant according to the first embodiment of the present invention. As in 23 shown, the consumption resources of the water consumption system are electricity and supply water.

The utility plant operating condition calculating unit 413 stores the created production plant operating condition information of the utility plant 3 in the utility calculation database 432 in memory 43 .

As in 3 shown, the resource consumption calculation unit 414 is obtained from the production calculation database 431 in the working memory 43 the production plant operating condition information of the production plant 1 and it receives the utility operating condition information of the utility 3 from the utility calculation database 432 in memory 43 and on the basis of the obtained production plant operating condition information and utility plant operating condition information, it calculates the total sum of resources consumed in the production plant 1 and the supply system 3 are determined, and creates the resource consumption information.

24 Fig. 13 is a data configuration diagram showing an example of resource consumption information according to the first embodiment of the present invention. In 24 The resource consumption information is composed of two kinds of information that is the “consumption resource” indicating a resource that is produced according to the production equipment operating condition information of the production equipment 1 and the utility facility operating condition information of the utility facility 3 is intended for consumption, and the "consumption amount", which indicates a consumption amount of the consumption resource. The name of each consumption resource is the name of the cost item that is intended for consumption. In the 24 The specified resource consumption information is the resource consumption information according to the production plant operating condition information of the production plant 1 , in the 15th to 17th is specified, and the utility system operating condition information of the utility system 3 , in the 22nd and 23 is specified. As in 24 stated, for example 1500 screws are consumed, 48,000 Wh electricity is consumed and 23 h labor costs are consumed.

As in 3 As shown, the cost calculating unit 415 receives the resource consumption information from the resource consumption calculating unit 414 and receives the cost item information from the cost item database 433 in the working memory 43 and based on the obtained resource consumption information and the cost item information, calculates the total cost for the production facility 1 and the utility system 3 required and creates the cost information.

25th Fig. 13 is a data configuration diagram showing an example of charge item information according to the first embodiment of the present invention. In 25th The cost item information is composed of two types of information, the “cost item” that indicates a cost name that corresponds to a resource, and the “cost” information that indicates a unit price for each cost item. As in 25th For example, a screw is 10 yen, 1 Wh of electricity is 0.02 yen, and the hourly labor cost is 1000 yen. In 25th each cost item is described in such a way that it corresponds to a price. However, the single cost item is not limited to one price, and each cost item can contain two or more prices, with selection conditions. An example of two or more prices is a case where the labor cost includes two prices with the condition of working hours, about 1000 yen / hour from 8:00 a.m. to 5:00 p.m. and 1500 yen / hour from 5:00 p.m. to 8:00 a.m. : 00.

26th Fig. 13 is a data configuration diagram showing an example of cost information according to the first embodiment of the present invention.

In 26th the cost information is composed of three types of information, which are the "cost item" indicating a cost name corresponding to a resource, the "consumption amount" indicating a consumption amount of the resource, and the "cost amount" which indicates the total cost of the cost item. The total cost is calculated by the cost calculating unit 415 based on the resource consumption information 24 and the cost item information 25th , and it is a value obtained by multiplying the unit price by the amount consumed. The total cost of the cost items is the sum of all the cost items and is the total sum of the costs incurred in the production facility 1 and supply system 3 required are. As in 26th stated, the total cost is 71,960 yen.

As in 3 As shown, the determining unit 416 receives the cost information from the cost calculating unit 415 and obtains the consumption target information from the consumption target database 434 in the working memory 43 and determines whether the production plan information needs to be changed based on the obtained cost information and consumption target information. The consumption target information is a value obtained by converting a consumption target value of resources into costs, and it is to be matched with the total cost in the cost information. The determination unit 416 determines that the production plan information need not be changed when the total cost in the cost information is equal to or less than the consumption target information, and determines that the consumption target information needs to be changed when the total cost in the cost information is greater than the consumption target information. The value of the consumption target information is a value set as desired according to a value that realizes adequate resource saving that a user desires.

For example, when the consumption target information is greater than 71,960 yen, the determining unit 416 matches it with the total cost in the cost information shown in FIG 26th is specified and determines that the production plan information does not need to be changed. When the consumption target information is 71,960 yen or less, the determination unit 416 determines that the production plan information needs to be changed.

When the result of the determination obtained from the determination unit 416 is the determination that the production plan information need not be changed, the production plan change unit 417 does not perform any special processing. In this case, the communication control unit 412 gives the production plan information to the production control device 2 and the display device 5 out.

When the result of the determination obtained from the determination unit 416 is the determination that the production plan information needs to be changed, the production plan change unit 417 obtains from the production plan change database 435 in memory 43 the production plan change information, and changes the production plan information based on the obtained production plan change information. The production plan change unit 417 stores the changed production plan information in the production calculation database 431 in the working memory 43 . In this case, the production equipment operating condition calculation unit 411 calculates the production equipment operating conditions of the production equipment 1 New.

27 Fig. 13 is a data configuration diagram showing an example of the production plan change information according to the first embodiment of the present invention. In 27 The production plan change information is composed of two kinds of information, which are the “priority level” indicating a priority related to the execution of the processing and the “processing of the production plan change” that indicates the processing of the production plan change that is to be carried out. The production plan change unit 417 updates the processing of the production plan change according to the order of the priority levels in the production plan change information 27 and stores the changed production plan information in the production calculation database 431 in the working memory 43 . Then each functional component unit leads the control unit 41 processing again. As a result, until the determining unit 416 determines that the production plan information need not be changed, the production plan changing unit 417 performs all possible processing for changing the production plan.

The processing to change the production start date and time is performed according to the production start date and time in the production plan information 9 to change to a point in time that is before or after by the calculation time unit in the calculation time unit information after 11 . If dates and times of the start of production are set at which production is prohibited for the respective target product, or if the time after the change is already reserved for another product, the date and time of the start of production will only be changed to one of the available times , with the exception of the times mentioned. For example, the production plan changing unit 417, through the processing for changing the production start date and time, performs the processing to track the production start date and time of the product A on 07/01/2018 10:00 in the production plan information 9 to change.

The processing of production averaging means processing according to the production plan of each target product in the production plan information 9 to be divided into sub-plans. If dates and times of the start of production are set at which production is prohibited for the respective target product, or if the time, after the subdivision, is already reserved for another product, the date and time of the start of production are only changed to one of the available times , with the exception of the times mentioned. The production plan changing unit 417 performs, for example, through the processing of the production averaging, the processing that the plan of the production quantity of 60 pieces at the production start date and time 07/01/2018 09:00, which is the production plan of product A, in according to the production plan information 9 , is divided into the production quantity of 30 pieces on the date and time of the start of production 07/01/2018 09:00 and into the production quantity of 30 pieces on the date and time of the start of production 07/01/2018 16:00.

The processing of the production integration means processing according to the plurality of sub-plans of the production plan for each target product in the production plan information 9 to consolidate. If dates and times of the start of production are set at which production is prohibited for the respective target product, or if the time, after consolidation, is already reserved for another product, the date and time of the start of production are only changed to one of the available times , with the exception of the times mentioned. For example, if the plan for the respective target product is in the production plan information according to 9 is divided into sub-plans, the production plan changing unit 417 performs the processing for consolidating the sub-plans of the production plan.

28 represents the production plan information after the production plan changing unit 417 updates the production plan information 9 according to the processing to change the date and time of the start of production after 27 has changed. 28 Fig. 13 is a data configuration diagram showing an example of changed production plan information according to the first embodiment of the present invention. As in 28 indicated, the production plan changing unit 417 has the production plan for the product A in the production plan information according to 9 changed to the date and time of the start of production on 07/01/2018 10:00, which is one hour later.

The production plan change unit 417 subsequently stores the changed production plan information 28 in the production calculation database 431 in memory 43 and issues an instruction to the manufacturing equipment operating condition calculating unit 411 requesting that the manufacturing equipment operating conditions of the manufacturing equipment 1 be recalculated. Then done based on the changed Production plan information according to 28 , the processing in each of the production plant operating condition calculating unit 411, the communication control unit 412, the utility plant operating condition calculating unit 413, the resource consumption calculating unit 414, the cost calculating unit 415, the determining unit 416 and the production plan changing unit 417 Production plant operating condition calculating unit 411, the communication control unit 412, the utility plant operating condition calculating unit 413, the resource consumption calculating unit 414, the cost calculating unit 415, the determining unit 416 and the production plan changing unit 417 continues until the determining unit 416 determines that the production plan information does not need to be changed.

29 shows the changed cost information as a result of the recalculation based on the changed production plan information 28 . 29 Fig. 13 is a data configuration diagram showing an example of the changed cost information according to the first embodiment of the present invention. As in 29 indicated, the electricity is around 1,700 Wh, the labor costs around 1 hour and the total costs around 1,304 yen to 70,926 yen compared to the cost information according to 26th reduced. As a result, even if the consumption target information is 71,960 yen or less, for example 71,000 yen, the determination unit 416 determines that the production plan information need not be changed, and the processing is ended.

As described above, through the processing performed by the production equipment operating condition calculation unit 411, the communication control unit 412, the utility equipment operating condition calculation unit 413, the resource consumption calculation unit 414, the cost calculation unit 415, the determination unit 416 and the production plan changing unit 417 the control unit 41 occurs, the production plan information is changed to production plan information that realizes reasonable resource savings that the user desires, and an environmentally friendly production plan can be established.

Next will be a flow of the processing of the production plan change by the control unit 41 described. 30th Fig. 13 is a flowchart showing an example of a flow of processing of production plan change according to a first embodiment of the present invention.

First, the control unit receives 41 a request for processing the production plan change from the user or it starts the processing of the production plan change automatically. The method by which the user requests to start the processing of the production plan change may be any method such as a method in which a start button for processing the production plan change as an input unit 45 is present, which the user presses. The method by which the control unit 41 the processing of the production plan change starts automatically can be any method, such as a method in which, for example, the storage of the production plan information after 9 in main memory 42 serves as a trigger to start processing the production plan change.

In step S101, the production equipment operating condition calculation unit 411 creates the production equipment operating condition information based on the production equipment information and stores the production equipment operating condition information in the production calculation database 431. The production equipment information is the information stored in the production calculation database 431 in the working memory 43 and it is composed of eight kinds of information which are the process information, the production capacity information, the process operation information, the plant operation information, the production plan information, the calculation time information, the calculation time unit information and the production resource information 4th to 14th acts. The production plant operating condition information is the information contained in the 15th to 17th is specified.

Next, in step S102, the communication control unit 412 generates an instruction to the utility 3 based on the production plant operating condition information from step S101 and issues this instruction. The instruction generated by the communication control unit 412 is an instruction that the utility 3 instructs to deliver the utility plant information based on the production plant operating condition information.

Next, in S103, the communication control unit obtains 412 via the communication unit 44 the utility information from the utility 3 and stores it in the utility calculation database 432. The utility information is composed of two kinds of information, which are utility operation plan information and utility resource information, as shown in FIG 18th to 21 specified.

Next, in step S104, the utility plant operating condition calculating unit 413 creates the utility plant operating condition information based on the utility plant information and stores it in the production calculation database 432. The utility plant operating condition information is the information recorded in FIG 22nd and 23 is specified.

Next, in step S105, the resource consumption calculating unit 414 prepares the resource consumption information based on the production plant operating condition information and the utility plant operating condition information. The resource consumption information is the information contained in 24 is specified.

Next, in step S106, the cost calculation unit 415 prepares the cost information based on the resource consumption information and the cost item information. The charge item information is the information held in the charge item database 433 in memory 43 is stored and it is in 25th specified. The cost information is the information that is included in 26th is specified.

Next, in step S107, the determination unit 416 determines whether the production plan information needs to be changed based on the cost information and the consumption target information. If the production plan information does not need to be changed (No), the processing proceeds to step S109. If the production plan information needs to be changed (Yes), the processing proceeds to step S108. The consumption target information is the information stored in the consumption target database 434 in the working memory 43 is stored, and it is a value obtained by converting a resource consumption target value set as desired according to a value that realizes adequate resource saving that a user desires. The determination unit 416 matches the cost information with the consumption target information and determines that the production plan information need not be changed when the total cost in the cost information is equal to or less than the consumption target information, and determines that the consumption target information needs to be changed when the total cost in of the cost information is larger than the consumption target information.

In step S108, the production plan changing unit 417 changes the production plan information based on the production plan change information and stores it in the production calculation database 431, and the processing proceeds to step S101. The production plan change information is the information that is stored in 27 is indicated, and the production plan change unit 417 performs the processing of the production plan change in accordance with the order of the priority levels. As a result, in step S107, the production plan changing unit 417 performs all possible processing for changing the production plan until the determining unit 416 determines that the production plan information need not be changed.

In step S109, the communication control unit 412 outputs the production plan information to the production control device 2 and the display device 5 out.

As described above, according to the production planning device 4th the first embodiment, an environmentally friendly production plan can be created in which the operating conditions of the supply system 3 be taken into account that the production facility 1 supplied with resources.

As the method by which the plant operating condition calculating unit 411 calculates the plant operating conditions, the method in which the calculation is made based on the information in which the production processing in each production process includes the time it takes to convert is described to transport produced items between production processes. However, the invention is not limited to the method in which the calculation is based on the information in which the production processing in each production process includes the time it takes to transport produced articles between the production processes, and the calculation can be This information is based on the information that defines the time it takes to transport produced items between the production processes, separately from the production processing of the respective production process.

As the method by which the production plant operating condition calculating unit 411 calculates the production plant operating conditions, the method is described in which it is assumed in the calculation that produced articles that are generated in the respective production process are hourly as a batch for the next production process be transported. However, the invention is not limited to the method in which it is assumed in the calculation that produced articles that are generated in the respective production process are transported hourly as a batch to the next production process, and the The calculation can be based on the assumption that items produced in the respective production process are transported individually to the next production process. The method in which the calculation is based on the assumption that articles produced in the respective production process are transported individually to the next production process can be, for example, a method in which a produced article that is fed to the respective production process is processed as a task and the time required for processing individual tasks is calculated instead of a method in which the calculation is based on information in table format as described in the first embodiment. In the method of calculating the time required to process individual tasks, each production process has a loading list for handling the tasks that are loaded and a list of processed tasks for handling the tasks that have been processed in the production process and individual tasks will be processed in such a way that a task added to a list of processed tasks is included and processed by the next production process on its loading list. In this way, the method in which the calculation is carried out on the assumption that articles produced in the respective production process are individually transported to the next production process can achieve the effect that the calculation of production plant operating conditions that approximate the actual conditions is possible.

The method in which the determination unit 416 determines whether the production plan information needs to be changed by matching the cost information with the consumption target information that is the target value set as desired by the user has been described. However, the method of determining is not limited to the method of matching the cost information with the consumption target information, and any method of determining which is capable of recognizing one version of production plan information, such as a method in which a plurality of versions of changed production plan information is generated in advance by the production plan changing unit 417 by changing the production plan information, and determining the production plan information with the lowest cost among the cost information based on the production plan information and the cost information based on the plurality of versions of the changed production plan information as appropriate production plan information .

The production plant information is described as being composed of eight kinds of information, which are the process information, the production capacity information, the process operation information, the plant operation information, the production plan information, the calculation time information, the calculation time unit information, and the production resource information. However, the production plant information is not limited to being composed of the eight types of information, and the process information, the production capacity information, the process operation information, the plant operation information, the production plan information, the calculation time information, the calculation time unit information and the production resource information can be further divided into a variety of types of information or be integrated into seven or fewer types of information.

The utility information is described as being composed of two kinds of information, which are utility operation plan information and utility resource information. However, the utility information is not limited to being composed of the two kinds of information, and the utility operation plan information and the utility resource information may be further divided into a plurality of kinds of information or incorporated into one kind of information.

Second embodiment

In the first embodiment, the embodiment in which the utility system 3 is a facility that is just the production facility 1 controlled by the production control device 2 , supplied with resources, described. In a second embodiment, an embodiment in which the supply system 3 is a plant that is also a different production plant from the production plant 1 controlled by the production control device 2 , supplied with resources, described. The configuration of the production planning system 100 , the configuration of the production planning device 4th , the functional configuration of the control unit 41 , and the processing in the plant operating condition calculating unit 411, the resource consumption calculating unit 414, the cost calculating unit 415, the determining unit 416, and the production plan changing unit 417 are substantially the same as the first embodiment, and their description is therefore omitted here. Unless otherwise described, the following assumes that the different types of information stored in different databases represent the same information described in the first embodiment.

The communication control unit 412 shown in 3 is shown, gives an instruction to the utility system 3 based on the production plant operating condition information stored in the production calculation database 431 in the working memory 43 is stored. As a result, the communication control unit 412 receives the utility information from the utility 3 and stores the obtained utility information in the utility calculation database 432. Unlike the first embodiment, the utility information is composed of three kinds of information, which is utility operation plan information which is a utility operation plan of the utility 3 indicates the previous utility plant operation plan information that is a utility plant operation plan of the utility plant 3 before the instruction is given from the communication control unit 412, and the utility resource information indicating the resources required for each utility facility 3 are intended for consumption. The utility resource information can originally be found in utility calculation database 432 in memory 43 stored and not contained in the utility system information that the communication control unit 412 receives from the utility system 3 receives. The utility resource information is basically as described in the first embodiment, and it is the information that is shown in 20th and 21 is specified.

Since the content described below is the same regardless of whether the utility system 3 the compressed air supply system or the water treatment system, only one example is described in which the supply system 3 the compressed air supply system is.

31 Fig. 13 is a data configuration diagram showing an example of the utility operation plan information in the compressed air utility according to the second embodiment of the present invention. 32 Fig. 13 is a data configuration diagram showing an example of the previous utility operation plan information in the compressed air utility according to the second embodiment of the present invention.

In 31 the supply system operating plan information is composed of three types of information, which is the information "date and time of operation" which, based on a calculation time unit, indicates a date and time of operation at which the compressed air supply system is in operation should, the "supply amount", which indicates a supply amount of compressed air, and the "system operation", which indicates operation of the compressed air supply system. In 32 the previous supply system operating plan information is composed of three types of information, which is the information "date and time of operation", which indicates a date and time of operation on the basis of a calculation time unit at which the compressed air supply system is in operation should be, the "supply amount", which indicates a supply amount of compressed air, and the "system operation", which indicates operation of the compressed air supply system.

As in 3 indicated, the utility system operating condition calculating unit 413 receives the utility system information from the utility calculation database 432 in the working memory 43 and, based on the utility plant operation plan information and the previous utility plant operation plan information in the obtained utility plant information, creates utility plant operation plan information for comparison by extracting the operation processing of the compressed air supply system added as a result of the instruction from the communication control unit 412.

33 Fig. 13 is a data configuration diagram showing an example of the utility operation plan information for comparison in a compressed air utility according to the second embodiment of the present invention. In 33 the supply system operating plan information is composed of three types of information, which is the information "date and time of operation" which, based on a calculation time unit, indicates a date and time of operation at which the compressed air supply system is in operation should, the "supply amount", which indicates a supply amount of compressed air, and the "system operation", which indicates operation of the compressed air supply system.

As in 33 indicated, the utility plant operation plan information has plant operations from 07/01/2018 09:00 to 07/01/2018 16:00 for comparison, and it can be seen that these plant operations are the plant operations added to the compressed air supply system as a result of the instruction from the communication control unit 412 are. It should be noted that with regard to the plant operations start, finish processing and stop, these are both listed in the utility plant operation plan information 31 as well as in the previous supply system operating plan information 32 are included, even if the dates and times of the Operations are different and therefore refer to the utility operation plan information for comparison 33 are not included.

The utility operating condition calculating unit 413 also prepares utility operating condition information based on the utility operating plan information for comparison and the utility resource information, and stores it in the utility calculation database 432 in the work memory 43 . 34 Fig. 13 is a data configuration diagram showing an example of the utility equipment operating condition information in the compressed air utility equipment according to the second embodiment of the present invention. In 34 the supply system operating condition information of the compressed air supply system is composed of five types of information, which are "supply system", "date and time of operation", "supply amount", "system operation process" and "consumption resource". The supply system operating conditions information for the compressed air supply system according to 34 is different from the utility operating condition information of the first embodiment 22nd in that it is the information in which the plant operations start, finish processing and stop are not included. The processing that follows the resource consumption calculation unit 414 is basically as described in the first embodiment.

As described above, by comparing the utility operations of the utility 3 before and after the instruction from the communication control unit 412 based on the plant operation information that the plant operation condition calculating unit 411 has prepared, with only plant operations of the utility plant 3 added as a result of the instruction from the communication control unit 412, and by calculating costs, the operating conditions of the utility 3 Appropriate consideration can be given and an environmentally sound production plan can also be drawn up when the utility plant 3 is a facility that is also a production facility other than a production facility 1 supplied with resources controlled by the production control device 2 .

Next will be a flow of the processing of the production plan change by the control unit 41 described. 35 Fig. 13 is a flowchart showing an example of a flow of processing of production plan change according to the second embodiment of the present invention. Steps S201, S202, S203, S206, S207, S208, S209 and S210 are essentially the same as S101, S102, S103, S105, S106, S107, S108 and S109 of FIG 30th in the first embodiment, so the description thereof is omitted here. The utility information that the communication control unit 412 receives from the utility 3 obtained in step S203 is different from that in the first embodiment and is composed of three kinds of information that are utility plant operation plan information, previous utility plant operation plan information, and utility resource information.

In step S204, the utility operating condition calculating unit 413 creates utility operating plan information for comparison, based on the utility operating plan information and the previous utility operating plan information included in the utility information. The utility operation plan information for comparison purposes is the information included in 33 is specified.

Next, in step S205, the utility operating condition calculating unit 413 creates utility operating condition information based on the utility operating plan information for comparison and the utility resource information, and stores it in the utility calculation database 432. The utility operating condition information is the information contained in 34 is specified.

As described above, according to the production planning device 4th of the second embodiment, the operating conditions of the utility system 3 be taken into account appropriately and an environmentally friendly production plan can also be created if the supply system 3 is a plant that is also a different production plant from the production plant 1 by the production control device 2 controlled, supplied with resources.

Third embodiment

In the first embodiment, the embodiment in which the production plan changing unit 417 changes the production plan information based on a determination result of the determining unit 416 has been described. In a third embodiment, an embodiment is described in which the control unit 41 furthermore has a supply plan change unit in order to convert a supply plan of the supply system 3 to change, and the production plan changing unit 417 changes the Production plan information or the supply plan changing unit changes the supply plan based on a determination result of the determining unit 416. The configuration of the production planning system 100 , the configuration of the production planning device 4th and the processing in the production plant operating condition calculating unit 411, the utility plant operating condition calculating unit 413, the resource consumption calculating unit 414 and the cost calculating unit 415 are substantially the same as the first embodiment, and their description is therefore omitted here. In the following, unless a description is given, it is assumed that the various types of information stored in different databases are the same information as described in the first embodiment.

36 Fig. 13 is a configuration diagram showing an example of a functional configuration of a control unit of a production planning apparatus according to the third embodiment of the present invention. As in 36 illustrated comprises the control unit 41 the production plant operating condition calculating unit 411, the communication control unit 412, the utility plant operating condition calculating unit 413, the unit for calculating the resource consumption 414, the cost calculating unit 415, the determining unit 416 and the production plan changing unit 417 and a supply plan changing unit 418 to determine the supply plan of Supply system 3 to change. In 36 are the main memory 43 , the production control device 2 , the utility system 3 and the display device 5 shown for the purposes of description. The RAM 43 includes the utility calculation database 432, which is a database that is generated during the control unit 41 executes the production plan change program 421, and it includes the production calculation database 431, the charge item database 433, the consumption target database 434, and the production plan change database 435 and a utility plan change database 436 which are temporary copies of the databases held in the main memory 42 are stored. In 36 a processing flow of each function block is indicated by a solid arrow and a data flow is indicated by a broken arrow.

The plan change database 436 is a database in which the plan change information necessary for processing by the plan change unit 418 is stored. The pension plan change information will be described in detail later. The production calculation database 431 and the utility calculation database 432 are regularly copied and in main memory 42 saved. The production calculation database 431, the utility calculation database 432, the cost item database 433, the consumption target database 434 and the production plan change database 435 are substantially the same as the first embodiment, and their description is therefore omitted here.

The communication control unit 412 controls the communication involved in the transmission and receipt of information to and from the production control device 2 , the supply system 3 and the display device 5 takes place via the communication unit 44 . First, the communication control equipment unit 412 obtains the production plant operating condition information 15th to 17th from the utility calculation database 432 in memory 43 , extracts the consumption amount of a consumption resource associated with the utility and the date and time of the plant operation that needs the consumption resource from the obtained production plant operating condition information, and outputs to the utility 3 that supplies the extracted consumption resource, an instruction to request the utility information regarding the utility 3 off, in the case of delivery of the consumption quantity of the consumption resource at the date and time of operation. Then, the communication control unit 412 receives the utility information from the utility 3 and stores the utility information obtained in the working memory 43 in the utility calculation database 432. This processing is basically the same as the processing in the first embodiment, so the description is omitted here.

The communication control unit 412 outputs via the communication unit 44 an instruction requesting that a utility plan be changed to the utility 3 based on the plan change information regarding the change in the plan received from the plan change unit 418. The communication control unit 412 then receives the utility system information changed in accordance with the instruction from the utility system 3 and stores the modified utility information it received in utility calculation database 432 in memory 43 . The plan change information received from the plan change unit 418 and that from the utility 3 changed utility information obtained will be described later in detail.

The communication control unit 412 outputs the production plan information regarding the Production plan obtained from the production plan changing unit 417 to the production control device 2 and the display device 5 via the communication unit 44 out. This processing is basically the same as the processing in the first embodiment, so the description is omitted here.

The determining unit 416 receives the cost information from the cost calculating unit 415, and obtains the consumption target information from the consumption target database 434 in the working memory 43 and, based on the obtained cost information and consumption target information, determines whether the production plan information or the supply plan needs to be changed. Specifically, the determination unit 416 determines whether the production plan information is changed or the supply plan of the utility facility 3 should be changed or whether neither the production plan information nor the supply plan of the supply system 3 needs to be changed. The consumption target information is the information in which two target values, which are a production plan consumption target value, which is a reference value for changing the production plan information, are set, which is a value obtained by using a consumption target value of resources in costs is converted, and which is to be compared with the total costs in the cost information, and a supply plan consumption target value, which is a reference value for the change in the supply plan. Since the change in the production plan information makes it necessary to recalculate both the production plant operating condition information and the utility plant operating condition information, the production plan consumption target value is set higher than the utility calculation consumption target value.

The determination unit 416 determines that neither the production plan information nor the supply plan of the utility 3 must be changed when the total cost in the cost information is equal to or less than the plan consumption target value in the consumption target information; it determines that the supply plan for supply facility 3 must be changed when the total cost in the cost information is higher than the supply plan consumption target value in the consumption target information and equal to or less than the production plan consumption target value; and determines that the production plan information needs to be changed when the total cost in the cost information is higher than the production plan consumption target value in the consumption target information. The values of the consumption target information are values that are set as desired according to values that realize adequate resource saving that a user desires.

For example, when the utility plan consumption target value in the consumption target information is less than 71,960 yen and the production plan consumption target value in the consumption target information is greater than 71,960 yen, the determination unit 416 determines that the utility plan is based on the comparison with the total cost in the cost information 26th needs to be changed.

When the result of the determination obtained from the determination unit 416 is the determination that neither the production plan information nor the supply plan needs to be changed, the production plan change unit 417 does not perform any particular processing. In this case, the communication control unit 412 gives the production plan information to the production control device 2 and the display device 5 out.

When the result of the determination obtained from the determination unit 416 is the determination that the production plan information needs to be changed, the production plan change unit 417 obtains from the production plan change database 435 in memory 43 the production plan change information, and it changes the production plan information based on the obtained production plan change information. The production plan changing unit 417 stores the changed production plan information in the production calculation database 431 in the work memory 43 . In this case, the production equipment operating condition calculation unit 411 calculates the production equipment operating conditions of the production equipment 1 New. This processing is basically the same as the processing described in the first embodiment, so a detailed description is omitted here.

When the result of the determination obtained from the determination unit 416 is the determination that the plan needs to be changed, the plan change unit 418 obtains from the plan change database 436 in memory 43 the utility plan change information and, based on the received utility plan change information, it generates an instruction requesting that the utility plan of the utility 3 will be changed.

37 Fig. 13 is a data configuration diagram showing an example of the service plan change information according to the third embodiment of the present invention. In 37 sits down The plan change information is composed of two kinds of information, which are the "priority level" which indicates a priority with respect to performing the processing and the "plan change processing" which indicates the processing of the plan change to be performed . The plan change unit 418 selects the processing of the plan change in accordance with the order of the priority levels in the plan change information 37 and, based on the selected processing of the supply plan change, generates an instruction that requests that the supply plan of the supply system 3 will be changed. The processing of the supply averaging is processing for dividing a supply plan into a plurality of sub-plans. The supply integration processing is processing for consolidating a plurality of sub-plans into one supply plan.

As in 36 given, the communication control unit 412 receives the instruction generated by the pension plan changing unit 418 and gives the received instruction through the communication unit 44 to the supply system 3 out.

The communication control unit 412 receives the utility information after changing the utility plan via the communication unit 44 from the supply system 3 and stores the obtained utility information in the utility calculation database 432 in the working memory 43 . Then, the production plant operating condition calculating unit 413 calculates the utility plant operating conditions of the utility plant 3 New. The supply system information after a change in the supply plan is made up of the supply system operating plan information, which is a system operating plan for the supply system 3 after changing the utility plan, and utility resource information indicating the resources that are in each utility facility 3 are intended for consumption. The utility resource information can originally be found in utility calculation database 432 in memory 43 stored and not contained in the utility system information that the communication control unit 412 receives from the utility system 3 receives.

Since the content described below is the same regardless of whether the utility system 3 the compressed air supply system or the water treatment system, only one example is described in which the supply system 3 the water treatment system is.

38 Fig. 13 is a data configuration diagram showing an example of utility plant operation plan information after changing the utility plan in the water treatment plant according to the third embodiment of the present invention. In 38 the supply system operating plan information is composed of five types of information, which is the information "date and time of operation", which indicates a date and time of operation on the basis of a calculation time unit at which the water treatment plant is in operation should, the "supply amount", which indicates a supply amount of water, the information "treated water", which indicates the amount of treated water that has been treated in the water treatment plant and is part of the water to be supplied, the information "supply water", which indicates the amount of water that consists of tap water or the like and is part of the water to be supplied, and the "plant operation", which indicates the operation of the water treatment plant.

As in 38 specified, the supply system operating plan information after changing the supply plan in the water treatment system is the supply system operating plan information, in which the treated water is increased by 600 I and the supply water is reduced by 600 I, in comparison with the supply system operating plan information before the supply plan after 19th will be changed. As a result, the electricity increases by 20,000 Wh and the supply water is reduced by 600 I in the resources intended for consumption in the water treatment plant, and the total cost in the cost information is reduced by 5600 yen.

After changing the supply plan, the supply system operating condition calculating unit 413 calculates the supply system operating conditions on the basis of the supply system information after changing the supply plan. Then the functional component units of the control unit repeat 41 the processing until the determining unit 416 determines that neither the production plan information nor the supply plan of the utility 3 needs to be changed.

Next will be a flow of the processing of the production plan change by the control unit 41 described. 39 Fig. 13 is a flowchart showing an example of a flow of processing of production plan change according to the third embodiment of the present invention. Steps S301, S302, S303, S304, S305, S306, S308 and S312 are substantially the same as S101, S102, S103, S104, S105, S106, S108 and S109 in 30th in the first embodiment, so the description thereof is omitted here.

In step S307, the determination unit 416 determines whether the production plan information or the supply plan of the utility facility 3 needs to be changed based on the cost information and the consumption target information. When it is determined that the production plan information needs to be changed (1), the processing proceeds to step S308. When it is determined that the utility plan of the utility facility 3 needs to be changed (2), the processing proceeds to step S309. When it is determined that the production plan information and the supply plan of the supply facility 3 must be changed (3), the processing proceeds to step S312. The consumption target information is the information stored in the consumption target database 434 in the working memory 43 is stored, and includes two target values that are a production plan consumption target value which is a reference value reference value for changing the production plan information and a supply plan consumption target value which is a reference value reference value for changing the supply plan, and these values are obtained by Resource consumption target values that are set as desired according to values that realize adequate resource saving that a user desires to be set as desired. Since the change in the production plan information makes it necessary to recalculate both the production plant operating condition information and the utility plant operating condition information, the production plan consumption target value is set higher than the utility calculation consumption target value.

The determination unit 416 determines that neither the production plan information nor the supply plan of the utility 3 must be changed when the total cost in the cost information is equal to or less than the plan consumption target value in the consumption target information; it determines that the supply plan for supply facility 3 must be changed when the total cost in the cost information is higher than the supply plan consumption target value in the consumption target information and equal to or less than the production plan consumption target value; and determines that the production plan information needs to be changed when the total cost in the cost information is higher than the production plan consumption target value in the consumption target information.

In step S309, the utility plan changing unit 418 generates an instruction requesting that the utility plan of the utility 3 is changed based on the plan change information. Specifically, the plan change unit 418 selects the processing of the plan change in accordance with the order of the priority levels in the plan change information 37 and, based on the selected processing of the supply plan change, generates an instruction that requests that the supply plan of the supply system 3 will be changed. As a result, in step S307, the utility plan changing unit 418 performs all possible processing operations for changing the utility plan until the determining unit 416 determines that the utility plan of the utility 3 does not need to be changed.

Next, in step S310, the communication control unit 412 gives the instruction generated by the pension plan changing unit 418 through the communication unit 44 to the supply system 3 out. The utility operating condition information is the information contained in the 22nd and 23 is specified.

Next, in step S311, the communication control unit 412 receives the utility information after changing the utility plan through the communication unit 44 from the supply system 3 and stores it in the utility calculation database 432 in memory 43 . The supply system information after a change in the supply plan is made up of the supply system operating plan information, which is a system operating plan for the supply system 3 after changes to the pension plan and the care resource information. The utility plan information after changing the utility plan is the information that is included in 38 is specified.

As described above, according to the production planning device 4th the third embodiment by not including only the production plan information of the production facility 1 , but also the supply plan of the supply system 3 appropriately changed, the operating conditions of the utility system 3 are adequately taken into account and an environmentally friendly production plan can be drawn up.

In the method described above, the determining unit 416 makes three kinds of determinations, namely whether the production plan information has been changed or the supply plan of the utility plant 3 must be changed or whether neither the production plan information nor the supply plan of the supply system 3 needs to be changed. However, the method of determination by the determining unit 416 is not limited to the three Types of determinations are restricted, and four types are also possible, namely the three types mentioned and an additional type of determination whether both the production plan information and the supply plan of the supply system 3 need to be changed. In this case, the supply plan of the supply system 3 that supply system 3 that is changed due to a change in the production plan information can be further changed, so that the effect can be obtained that a production plan for increased resource saving in the entire production planning system 100 can be created.

Fourth embodiment

In the first embodiment, the embodiment in which the production plan changing unit 417 changes the production plan information based on a determination result of the determining unit 416 has been described. In a fourth embodiment, an embodiment is described in which the control unit 41 further comprises a production plant operating condition calculation unit for calculating operating conditions of the production plant 1 and the production plan changing unit 417 changes the production plan information, or the production plant operating condition calculating unit changes the operating conditions of the production plant 1 , based on a determination result of the determination unit 416. The configuration of the production planning system 100 , the configuration of the production planning device 4th and the processing in the production plant operating condition calculating unit 411, the communication control unit 412, the utility plant operating condition calculating unit 413, the resource consumption calculating unit 414 and the cost calculating unit 415 are substantially the same as in the first embodiment and their description is therefore omitted here. In the following, unless a description is given, it is assumed that the various types of information stored in different databases are the same information as described in the first embodiment.

40 Fig. 13 is a configuration diagram showing an example of a functional configuration of a control unit of a production planning apparatus according to the fourth embodiment of the present invention. As in 40 shown includes the control unit 41 the production plant operating condition calculating unit 411, the communication control unit 412, the utility plant operating condition calculating unit 413, the resource consumption calculating unit 414, the cost calculating unit 415, the determining unit 416 and the production plan changing unit 417, and a manufacturing plant operating condition changing unit 419 to change the Operating conditions of the production plant 1 to change. In 40 are the main memory 43 , the production control device 2 , the utility system 3 and the display device 5 shown for the purposes of description. The RAM 43 includes the utility calculation database 432, which is a database that is generated during the control unit 41 executes the production plan change program 421, and it includes the production calculation database 431, the charge item database 433, the consumption target database 434, and the production plan change database 435 and an operating condition change database 437 which are temporary copies of the databases held in the main memory 42 are stored. In 40 a processing flow of each function block is indicated by a solid arrow and a data flow is indicated by a broken arrow.

The operating condition change database 437 is a database in which the operating condition change information required for processing by the production plant operating condition changing unit 419 is stored. The operating condition change information will be described in detail later. The production calculation database 431 and the utility calculation database 432 are regularly copied and in main memory 42 saved. The production calculation database 431, the utility calculation database 432, the cost item database 433, the utility target database 434 and the production plan change database 435 are substantially the same as the first embodiment, and their description is therefore omitted here.

The determining unit 416 receives the cost information from the cost calculating unit 415, and obtains the consumption target information from the consumption target database 434 in the working memory 43 and, based on the obtained cost information and consumption target information, determines whether the production plan information or the operating conditions of the production facility 1 need to be changed. Specifically, the determination unit 416 determines whether to change the production plan information, whether the operating conditions of the production facility 1 are to be changed or whether neither the production plan information nor the operating conditions of the production plant 1 need to be changed. The determination unit 416 outputs a determination result to the production plan change unit 417 and the production equipment operating condition change unit 419. The consumption target information is the information in which two target values, which are a production plan consumption target value that is a reference value for the Change of the production plan information, which is a value obtained by converting a consumption target value of resources into costs, and which is to be matched with the total cost in the cost information, and an operating condition consumption target value which is a reference value for the change in operating conditions of the production facility 1 is. Since the change of the production plan information means that the entire production plan of the production facility 1 is changed, the production plan consumption target value is set to a higher value than the operating condition consumption target value.

The determination unit 416 determines that neither the production plan information nor the operating conditions of the production facility 1 must be changed when the total cost in the cost information is equal to or less than the operating condition consumption target value in the consumption target information; it determines that of the operating conditions of the production facility 1 must be changed when the total cost in the cost information is higher than the operating condition consumption target value in the consumption target information and equal to or less than the production plan consumption target value; and determines that the production plan information needs to be changed when the total cost in the cost information is higher than the production plan consumption target value in the consumption target information. The values of the consumption target information are values that are set as desired according to values that realize adequate resource saving that a user desires.

For example, when the operating condition consumption target value in the consumption target information is less than 71,960 yen and the production plan consumption target value in the consumption target information is greater than 71,960 yen, the determination unit 416 determines that the operating conditions of the production facility 1 as a result of the comparison with the total costs in the cost information 26th need to be changed.

When the result of the determination obtained from the determination unit 416 is the determination that neither the production plan information nor the operating conditions of the production facility 1 need to be changed, the production plan changing unit 417 does not perform any special processing. In this case, the communication control unit 412 gives the production plan information to the production control device 2 and the display device 5 out.

When the result of the determination obtained from the determination unit 416 is the determination that the production plan information needs to be changed, the production plan change unit 417 obtains from the production plan change database 435 in memory 43 the production plan change information, and changes the production plan information based on the obtained production plan change information. The production plan changing unit 417 stores the changed production plan information in the production calculation database 431 in the work memory 43 . In this case, the production equipment operating condition calculation unit 411 calculates the production equipment operating conditions of the production equipment 1 New. This processing is basically the same as the processing described in the first embodiment, so a detailed description is omitted here.

When the result of the determination obtained from the determination unit 416, the determination is that the operating conditions of the production facility 1 need to be changed, the production plant operating condition changing unit 419 obtains from the operating condition changing database 437 in the working memory 43 operating condition change information, and changes the production plan information based on the obtained operating condition change information. The production plant operating condition changing unit 419 stores the changed production plant information in the production calculation database 431 in the work memory 43 . In this case, the production equipment operating condition calculation unit 411 calculates the production equipment operating conditions of the production equipment 1 New.

41 Fig. 13 is a data configuration diagram showing an example of the operating condition change information according to the fourth embodiment of the present invention. In 41 The operating condition change information is composed of two kinds of information, which are the “priority level” indicating a priority related to the execution of the processing and the “operating condition change processing” which indicates the processing of the operating condition change which is to be carried out. The production plant operating condition changing unit 419 updates the processing of the operating condition change according to the order of the priority levels in the operating condition change information 41 and stores the changed production plant information in the production calculation database 431 in the working memory 43 . Then each functional component unit leads the control unit 41 processing again. As a result, the production plan changing unit 417 or the production equipment operating condition changing unit 419 performs all of them possible processing operations for the production plan change or the operating condition change until the determining unit 416 determines that neither the production plan information nor the operating conditions of the production facility 1 need to be changed.

The production capacity change processing is processing to change the quantity of products per unit time of the production capacity according to the production capacity information 6th can be produced. The processing of the production capacity change is, for example, the processing to change the production capacity when the target product is the product B in the assembling process and the production capacity when the target product B is in the painting process to 30 pieces / hour.

The processing of the production capacity change is processing to change a production time of the production process, for example the definition of a period in which production is not permitted in the respective production process. The processing of the production time change is, for example, processing for specifying a time period during which daytime production is prohibited when the electricity cost is high. By setting a period in which daytime production is prohibited when the electricity cost is high, nighttime production when the electricity price is low can be increased, and there can be an effect that resource saving is realized.

The following describes a case where the determination unit 416 determines that the operating conditions of the production facility 1 and the manufacturing equipment operating condition changing unit 419 sets the production capacity when the target product is product B in the assembling process and the production capacity when the target product is product B in the painting process to 30 pieces / hour in the production capacity information 6th changes according to the processing of the production capacity change in the operating condition change information.

In 42 to 44 shows the plant operating condition information of the assembling process, the painting process, and the inspection process after the plant operating condition changing unit 419 changes the production capacity information based on the operating condition change information. 42 Fig. 13 is a data configuration diagram showing an example of the changed production line operating condition information of the assembling process according to the fourth embodiment of the present invention. 43 Fig. 13 is a data configuration diagram showing an example of the changed production line operating condition information of the painting process according to the fourth embodiment of the present invention. 44 Fig. 13 is a data configuration diagram showing an example of the changed production line operating condition information of the inspection process according to the fourth embodiment of the present invention.

In 42 to 44 The production plant operating condition information is composed of six kinds of information, which are the “production process” indicating a production process in which processing is to take place, the information “date and time of operation” based on a Calculation time unit specifies the date and time of the operation at which the production plant involved in the production process 1 should be in operation, the “product name”, which indicates a product that is to be manufactured, the “production quantity”, which indicates a quantity of products that are to be manufactured, the “plant operation”, the operating process of the production plant involved in the production process 1 and the information "Consumption Resources", which indicates the resources that are used in the respective plant operation process, and their quantity. The name of the respective consumption resource is the name of the cost item of the resource that is intended for consumption.

As in 42 to 44 shown, the production plant operating condition information after the production capacity information is changed is the production plant operating condition information in which, in comparison with the production plant operating condition information before the change, the power is reduced by 400 Wh and the labor cost is reduced by 3 hours, as shown in FIG 15th to 17th specified. As a result, electricity is reduced by 400 Wh and labor costs are reduced by 3 hours in the resources used in the production facility 1 are intended for consumption, so the total cost in the cost information is 3008 yen less.

After the production equipment operating condition changing unit 419 performs the processing of the operating condition change and the modified production equipment information in the production calculation database 431 in the work memory 43 is stored, each functional component unit of the control unit repeats 41 the processing until the determining unit 416 determines that neither the production plan information nor the operating conditions of the production facility 1 need to be changed.

Next will be a flow of the processing of the production plan change by the control unit 41 described. 45 Fig. 13 is a flowchart showing an example of a flow of processing of production plan change according to the fourth embodiment of the present invention. Steps S401, S402, S403, S404, S405, S406, S408 and S410 are substantially the same as S101, S102, S103, S104, S105, S106, S108 and S109 in FIG 30th in the first embodiment, so the description thereof is omitted here.

In step S407, the determination unit 416 determines whether the production plan information or the operating conditions of the production facility 1 must be changed based on the cost information and the consumption target information. When it is determined that the production plan information needs to be changed (1), the processing proceeds to step S408. When it is determined that the operating conditions of the production plant 1 need to be changed (2), the processing proceeds to step S409. When it is determined that neither the production plan information nor the operating conditions of the production facility 1 must be changed (3), processing proceeds to step S410. The consumption target information is the information stored in the consumption target database 434 in the working memory 43 is stored, and includes two target values that are a production plan consumption target value that is a reference value for changing the production plan information and an operating condition consumption target value that is a reference value for changing the operating conditions of the production facility 1 and these values are obtained by converting resource consumption target values set as desired according to values that realize adequate resource saving that a user desires. Since the change of the production plan information means that the entire production plan of the production facility 1 is changed, the production plan consumption target value is set to a higher value than the operating condition consumption target value.

The determination unit 416 determines that neither the production plan information nor the operating conditions of the production facility 1 must be changed when the total cost in the cost information is equal to or less than the operating condition consumption target value in the consumption target information; it determines that of the operating conditions of the production facility 1 must be changed when the total cost in the cost information is higher than the operating condition consumption target value in the consumption target information and equal to or less than the production plan consumption target value; and determines that the production plan information needs to be changed when the total cost in the cost information is higher than the production plan consumption target value in the consumption target information.

In step S409, the production plant operating condition changing unit 419 changes the production plant information based on the operating condition change information and stores it in the production calculation database 431 in the work memory 43 and processing continues in step S401. The operating condition change information is the information after 41 and the production plant operating condition changing unit 419 performs the processing of the operating condition change in the order of the priority levels and stores the changed production plant information in the production calculation database 431 in the work memory 43 . As a result, when the determining unit 416 determines that the operating conditions of the production facility 1 must be changed, the production plant operating condition changing unit 419 performs all possible processing operations of the operating condition change until the determining unit 416 determines that the production plan information and the operating conditions of the production plant 1 need not be changed in step S407.

As described above, according to the production planning device 4th the fourth embodiment by not including only the production plan information of the production facility 1 , but also the operating conditions of the production plant 1 appropriately changed, the operating conditions of the production plant 1 and the operating conditions of the utility system 3 are adequately taken into account and an environmentally friendly production plan can be drawn up.

In the method described above, the determining unit 416 makes three kinds of determinations, namely whether the production plan information has changed or whether the operating conditions of the production facility 1 must be changed and whether neither the production plan information nor the operating conditions of the production plant 1 need to be changed. However, the method of determination by the determining unit 416 is not limited to the three types of determinations, and four types are also possible, namely the three types mentioned and an additional way of determining whether both the production plan information and the operating conditions of the production plant 1 need to be changed. In this case, the operating conditions of the production plant 1 that are changed due to a change in the production plan information can be further changed, so that the effect can be obtained that a Production plan for increased resource savings in the entire production planning system 100 can be created.

Fifth embodiment

In the first embodiment, the embodiment in which the production plan change unit 417 changes the production plan information by performing all possible processing for changing the production plan according to the production plan change information based on the determination by the determination unit 416 has been described. In a fifth embodiment, an embodiment is described in which the control unit 41 further comprises a production plan change estimation unit to learn the processing of the production plan change performed by the production plan change unit 417 and the results thereof, and to estimate the appropriate processing of the production plan change to be selected by the production plan change unit 417 and in which the production plan change Estimation unit estimates the appropriate processing of the production plan change to be performed by the production plan change unit 417. The configuration of the production planning system 100 , the configuration of the production planning device 4th and the processing in the production plant operating condition calculating unit 411, the communication control unit 412, the utility plant operating condition calculating unit 413, the resource consumption calculating unit 414, the cost calculating unit 415 and the determining unit 416 are substantially the same as the first embodiment and their description is therefore omitted here. In the following, unless a description is given, it is assumed that the various types of information stored in different databases are the same information as described in the first embodiment.

46 Fig. 13 is a configuration diagram showing an example of a functional configuration of a control unit of a production planning apparatus according to the fifth embodiment of the present invention. As in 46 shown includes the control unit 41 the production plant operating condition calculating unit 411, the communication control unit 412, the utility plant operating condition calculating unit 413, the unit for calculating the resource consumption 414, the cost calculating unit 415, the determining unit 416, the production plan change unit 417 and a production plan change estimating unit 420 to process the Production plan change performed by the production plan change unit 417 and the results thereof, and to estimate the appropriate processing of the production plan change to be performed by the production plan change unit 417. In 46 are the main memory 43 , the production control device 2 , the utility system 3 and the display device 5 shown for the purposes of description. The RAM 43 includes the utility calculation database 432, which is a database that is generated during the control unit 41 executes the production plan change program 421, and it includes the production calculation database 431, the charge item database 433, the consumption target database 434, the production plan change database 435, and a production plan estimation database 438 which are temporary copies of the databases held in the main memory 42 are stored. In 46 a processing flow of each function block is indicated by a solid arrow and a data flow is indicated by a broken arrow.

The production plan estimation database 438 is a database for storing the information of the production plan change log in which the processing of the production plan change performed by the production plan change unit 417 is stored, and a model for the estimation of the production plan change that the production plan change estimation unit 420 based on the information of the Production plan change log is generated. The model for estimating the production plan change is an estimation model generated by the production plan change estimating unit 420 based on the information of the production plan change log using a machine learning method such as a k-means algorithm that is non-hierarchical Clustering method, or a kernel-based k-means cluster analysis, which is a combination of k-means algorithm and kernel method. The production calculation database 431 and the utility calculation database 432 are regularly copied and in main memory 42 saved. The production calculation database 431, the utility calculation database 432, the cost item database 433, the utility target database 434 and the production plan change database 435 are substantially the same as the first embodiment, and their description is therefore omitted here.

When the result of the determination obtained from the determination unit 416 is the determination that the production plan information need not be changed, the production plan change unit 417 does not perform any special processing. In this case the Communication control unit 412 sends the production plan information to the production control device 2 and the display device 5 out.

When the result of the determination obtained from the determination unit 416 is the determination that the production plan information needs to be changed, and if it is done before the production plan change estimation unit 420 generates a model for production plan estimation, the production plan change unit 417 obtains from the production plan change database 435 in memory 43 the production plan change information, and it changes the production plan information based on the obtained production plan change information. In this case, the production equipment operating condition calculation unit 411 calculates the production equipment operating conditions of the production equipment 1 New. This processing is basically the same as the processing described in the first embodiment, so a detailed description is omitted here.

Then, when the result of the determination obtained from the determination unit 416 is the determination that the production plan change needs to be changed, the production plan change unit 417 stores the processing of the production plan change performed in connection with the date and time of the receipt as the information of the production plan change log in the production plan estimation database 438 in memory 43 .

After the production plan change estimating unit 420 generates the model for production plan estimation, the production plan change unit 417 receives production plan change processing, which is the result of estimating a production plan based on the model for production plan estimation, from the production plan change estimation unit 420, and changes based on the obtained Processing the production plan change the production plan information. The production plan changing unit 417 stores the changed production plan information in the production calculation database 431 in the work memory 43 . Then, the production equipment operating condition calculation unit 411 calculates the production equipment operating conditions of the production equipment 1 New.

The production plan change estimation unit 420 obtains the information of the production plan change log from the production plan estimation database 438 in memory 43 , and, based on the obtained information of the production plan change log, generates a production plan change estimation model to estimate the appropriate production plan change processing to be performed by the production plan change unit 417, and stores the production plan change estimation model in the production plan estimation database 438 in memory 43 . After generating the production plan estimation model, the production plan change estimation unit 420 estimates the appropriate processing of the production plan change based on the production estimation model. The production plan estimation model can be updated regularly. The production plan estimation database 438 is periodically copied and in main memory 42 saved.

As described above, according to the production planning device 4th According to the fifth embodiment, the production plan change estimating unit 420 estimates the appropriate processing of the production plan change, so that the appropriate production plan information can be generated with a small amount of processing and an environmentally friendly product manufacturing plan can be generated.

A case will be described where the production plan change estimation unit 420 generates the model for production plan estimation. However, the invention is not limited to the case that the production plan change estimating unit 420 generates the production plan estimation model, and the production plan estimating unit 420 can estimate the appropriate processing of the production plan change that minimizes the total cost in a predetermined finite time a comprehensive search method by a genetic algorithm or the method of Lagrange relaxation, and output them to the production plan changing unit 417 instead of generating the model for production plan estimation. In the event that the production plan change estimating unit 420 generates the model for production estimation, until the model for production plan estimation is generated, the production plan change estimation unit 420 can also estimate the appropriate processing of the production plan change that minimizes the total cost in a predetermined finite time, using a comprehensive search method by a genetic algorithm or the method of Lagrange relaxation, and output them to the production plan change unit 417.

Sixth embodiment

In the first embodiment, the embodiment has been described in which the production plan information takes into account the operating conditions of the utility equipment 3 who have made the production facility 1 supplied with resources, is created. In the sixth embodiment, an embodiment described in which the production plan information taking into account the operating conditions of a disposal facility for disposal of the waste from the production facility 1 is created.

47 Fig. 13 is a configuration diagram showing an example of a production planning system according to the sixth embodiment of the present invention. As in 47 shown includes a production planning system 200 five production plants 1 , the production control device 2 , the production planning device 4th who have favourited the display device 5 , the network 6th and a disposal facility 7th . Unlike the production planning system 100 to 1 includes the production planning system 200 the disposal facility 7th instead of the supply system 3 . The production planning system 200 According to the description includes five production plants 1 . However, the invention is not applicable to the case of five production lines 1 limited, and they can have any number of production lines 1 where each number is four or less or six or more. The production planning system 200 According to the description, it only includes one disposal facility 7th . The invention is not, however, in the case of a disposal plant 7th limited, and they can have two or more disposal facilities 7th include. The configurations of the production plant 1 , the production control device 2 , the display device 5 and the production planning device 4th correspond to the first embodiment and therefore their description is omitted here.

The disposal facility 7th is a facility for processing waste from the production facility 1 . The one from the disposal facility 7th Processed waste is, for example, carbon dioxide gas, dirty water or metal splinters from the production plant 1 . The disposal facility 7th creates a disposal system information relating to the system and sends it to the production planning device 4th out. The disposal facility information will be described in more detail later. It is not shown in the illustration, but the production plant 1 and the disposal facility 7th are connected to waste disposal via a disposal line, such as an air or sewer line. The disposal facility 7th is an equipment that is not controlled by the production control device 2 can be controlled and the production plant 1 and the disposal facility 7th can be managed by different administrators.

48 Fig. 13 is a configuration diagram showing an example of a functional configuration of a control unit of a production planning apparatus according to the sixth embodiment of the present invention. As in 48 shown includes the control unit 41 the production facility operating condition calculating unit 411, the communication control unit 412, the resource consumption computing unit 414, the cost computing unit 415, the determining unit 416, the production plan changing unit 417, and a disposal facility operating condition computing unit 421 to calculate the operating conditions based on the disposal facility information of the disposal facility 7th to calculate and to create a disposal plant operating conditions information. In 48 are the main memory 43 , the production control device 2 , the utility system 3 and the display device 5 shown for the purposes of description. The RAM 43 comprises a disposal calculation database 439, which is a database that is generated during the control unit 41 executes the production plan change program 421, and it includes the production calculation database 431, the charge item database 433, the consumption target database 434, and the production plan change database 435 which are temporary copies of the databases held in the main memory 42 are stored. In 48 a processing flow of each function block is indicated by a solid arrow and a data flow is indicated by a broken arrow. A difference to the control unit 41 in the first embodiment shown in 3 is that, in each functional component unit, the disposal facility operating condition information is processed based on the disposal facility information, instead of the utility facility operating condition information based on the utility facility information.

The disposal system information is made up of the disposal system operating plan information, which is a system operating plan for the disposal system 7th and the waste information that indicates the waste that is in each disposal facility 7th is intended for disposal. The following describes a case in which the disposal facility 7th is a wastewater treatment plant for treating wastewater. 49 Fig. 13 is a configuration diagram showing an example of disposal plant operation plan information of the sewage treatment plant according to the sixth embodiment of the present invention. 50 Fig. 13 is a configuration diagram showing an example of waste information of the sewage treatment plant according to the sixth embodiment of the present invention.

In 49 sets the disposal plant operating conditions information in the wastewater treatment plant that the disposal plant 7th is composed of three types of information, which are the information “Date and Time of the operation ", which, based on a calculation time unit, specifies the date and time of the operation at which the wastewater treatment plant is to be in operation, the" supply quantity ", which indicates a supply quantity of wastewater that is to be processed, and the" plant operation ", which indicates an operation of the wastewater treatment plant. The water purification processing listed as the plant operation is a processing for purifying the wastewater coming out of the production plant 1 disposed of in safe water.

For example, as in 48 specified the disposal facility 7th If the wastewater treatment plant is, the wastewater treatment plant should carry out water purification processing for the purification of 100 l of wastewater as a plant operation process on 07/01/2018 09:00.

In 50 The waste information is composed of five types of information, which is the "disposal facility" which the disposal facility 7th for the processing of waste is the "plant operation", which is an operating process of the disposal plant 7th indicates the "resource", which indicates a resource that is intended for consumption in the respective plant operation, the "consumption amount", which indicates a consumption amount of the resource intended for consumption, and the "cost item", which indicates the name of the cost item that corresponds to the resource.

As in 49 and 50 given, the disposal plant operation plan information and the waste information are basically configured like the utility plant operation information and the utility resource information in the first embodiment of FIG 18th to 21 even if the names of the cost items are different. Therefore, the calculation processing for calculating the disposal facility operating conditions in the disposal facility operating condition calculation unit 421, based on the disposal facility information composed of the disposal facility operation plan information and the waste information, is substantially the same as the computation processing for computing the utility facility operating conditions in the utility facility. Operating condition calculating unit 413 in the first embodiment. The details of the calculation processing are basically the same as the first embodiment, so the description is omitted here.

The disposal facility operating condition calculation unit 421 prepares the disposal facility operating condition information based on the calculation results and stores it in the disposal calculation database 439 in the work memory 43 . The disposal calculation database 439 is a database that corresponds to the utility calculation database 432 in the first embodiment. Therefore, the disposal plant operating condition calculation unit 421 and the disposal calculation database 439 are substantially the same functional component unit and database as the utility plant operating condition calculation unit 413 and the utility calculation database 432 in the first embodiment, although there is the difference that the source information is the information about the Supply system 3 or the information about the disposal facility 7th is. Therefore, the processing in each functional component unit corresponds to the control unit 41 which perform processing based on the disposal facility operating condition information prepared by the disposal facility operating condition calculation unit 421, basically the first embodiment. The processing in each functional component unit of the control unit 41 corresponds essentially to the first embodiment, so the description is omitted here.

As described above, according to the production planning device 4th the sixth embodiment, taking into account the operating conditions of the disposal facility 7th who have favourited waste processed from the manufacturing facility 1 is disposed of, an environmentally friendly production plan must be drawn up.

The production planning device 4th that includes the disposal facility operating condition calculating unit 421 in place of the utility facility operating condition calculating unit 413 will be described. However, the invention is not limited to the case that the disposal plant operating condition calculating unit 421 is provided instead of the utility plant operating condition calculating unit 413 and the production planning device 4th may include the disposal facility operating condition calculating unit 421 in addition to the utility facility operating condition calculating unit 413. In this case, a production plan can be drawn up that includes both the supply system 3 which includes the production facility 1 supplied with resources, as well as the disposal facility 7th who have favourited waste from the production facility 1 disposed of so that the effect can be achieved that a more environmentally friendly production plan can be drawn up.

List of reference symbols

1

Production plant;

2

Production control device;

3

Supply system;

4th

Production planning device;

5

Display device;

6th

Network;

7th

Disposal facility;

41

Control unit;

42

Main memory;

43

Random access memory;

44

Communication unit;

45

Input unit;

100, 200

Production planning system

QUOTES INCLUDED IN THE DESCRIPTION

This list of the documents listed by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent literature cited

• JP 2016081074 A [0004]

Claims (8)

Production planning device comprising: a control unit including a production plant operating condition calculating unit for calculating a production plant operating condition, which is an operating condition of a production plant, according to a production plan, and preparing production plant operating condition information; a utility plant operating condition calculating unit for calculating a utility plant operating condition that is an operating condition of a utility plant for supplying a resource to the production plant in which the operating condition has changed based on the information on the operating condition of the production plant, and creating a utility plant -Operating condition information; a cost calculation unit for calculating total costs of resources to be consumed in the production facility and the utility facility based on the production facility operating condition information and the utility facility operating condition information; a determination unit for determining whether the production plan needs to be changed based on the total cost; and a production plan changing unit for changing the production plan based on a result of the determination by the determining unit; and a working memory for storing the production plan. Production planning device according to Claim 1 wherein the utility plant operating condition calculating unit generates utility plant operating condition information by extracting utility operation processing added to the manufacturing plant operating condition information based on the utility operation processing before the operating condition is changed based on the production plant operating condition information, and the operation processing of the Utility plant after the operating condition has been changed based on the production plant operating condition information. Production planning device according to Claim 1 or 2 wherein the control unit comprises a supply plan changing unit for changing a supply plan of the utility system based on a result of the determination by the determining unit, and wherein the determining unit determines whether the production plan or the supply plan needs to be changed based on the total cost. Production planning device according to one of the Claims 1 to 3 wherein the control unit comprises a production plant operating condition changing unit for changing the operating condition of the production plant based on a result of the determination by the determining unit, and wherein the determining unit determines whether the production plan or the production plan operating condition needs to be changed based on the total cost. Production planning device according to one of the Claims 1 to 4th wherein the control unit includes a production plan change estimation unit for estimating appropriate production plan change processing based on production plan change log information in which production plan change processing performed by the production plan change unit is stored. Production planning device according to one of the Claims 1 to 5 , wherein the control unit comprises a disposal facility operating condition calculation unit for calculating a disposal facility operating condition which is an operating condition of a disposal facility for disposing of waste from the production facility in which the operating condition is based on Production plant operating condition information has changed, and for creating a disposal plant operating condition information, and wherein the cost calculation unit comprises total costs of resources consumed in the production plant, the supply plant and the disposal plant on the basis of the production plant operating condition information, the supply plant operating condition information and the disposal plant Operating condition information is calculated. Production planning process, including: a manufacturing plant operating condition calculating step of calculating a manufacturing plant operating condition, which is an operating condition of a manufacturing plant, according to a production plan, and preparing manufacturing plant operating condition information; a utility plant operating condition calculating step of calculating a utility plant operating condition that is an operating condition of a utility plant for supplying a resource to the production plant in which the operating condition has changed based on the production plant operating condition information, and creating a utility plant Operating condition information; a cost calculating step of calculating a total cost of resources to be consumed in the production facility and the utility facility based on the production facility operating condition information and the utility facility operating condition information; a determining step of determining whether the production plan needs to be changed based on the total cost; and a production plan changing step of changing the production plan based on a result of the determination by the determining step. Production planning device comprising: a control unit including a production plant operating condition calculation unit for calculating a production plant operating condition, which is an operating condition of a production plant, according to a production plan, and for preparing production plant operating condition information; a disposal system operating condition calculation unit for calculating a disposal system operating condition, which is an operating condition of a disposal system for disposing of waste from the production plant in which the operating condition has changed based on the production system operating condition information, and for creating a disposal system Operating condition information; a cost calculation unit for calculating total costs of resources to be consumed in the production facility and the disposal facility based on the production facility operating condition information and the disposal facility operating condition information; a determination unit for determining whether the production plan needs to be changed based on the total cost; and a production plan changing unit for changing the production plan based on a result of the determination by the determining unit; and a working memory for storing the production plan.

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