JP4959577B2 - Production resource management system, evaluation value calculation method and program - Google Patents

Description

【Technical field】
[0001]
The present invention relates to a production resource management system, an evaluation value calculation method, and a program for calculating an evaluation value related to product manufacture in consideration of inventory costs.
[Background]
[0002]
Generally, the manufacturing industry makes a production plan when producing a product, so that the product can be supplied without excess or deficiency in the market. The production plan is created in consideration of the required time called lead time. For example, if a certain product is manufactured through three steps, assuming that step (1) takes 3 days, step (2) takes 2 days, and step (3) takes 4 days, it takes 9 days in total. These 9 days are called manufacturing lead time for this product.
[0003]
Furthermore, materials are required to produce the product. The material means all parts, semi-finished products, products, etc. used as materials at the time of manufacture. For example, when materials are ordered, if the materials are not available, production cannot be started and must be procured. Therefore, it is necessary to consider procurement lead time in addition to manufacturing lead time. In the previous example, if material A is required in step (1), and it takes one day from the time of ordering material A to delivery, as shown in FIG. The total lead time is 10 days, which is a procurement lead time of 1 day and a manufacturing lead time of 9 days. Of course, since it is necessary to consider the procurement lead time of all the materials and parts required in the steps (1) to (3), it is considered that it will actually be 10 days or more.
[0004]
In the manufacturing industry, demand forecast is performed to reduce the excess and deficiency of product supply, and when to start making a product to be shipped at a certain time, when to procure materials etc. The production plan is set based on the production lead time. By manufacturing products based on this production plan, it is possible to suppress oversupply and shortage of products to the market.
[0005]
[Patent Document 1]
JP-A-5-181871
[Patent Document 2]
JP-A-8-190586
DISCLOSURE OF THE INVENTION
[0006]
However, by setting the lead time based on the information on the time to be shipped, it is possible to contribute to suppressing oversupply and shortage of products to the market, but this is a product-centric idea. On the other hand, looking at the manufacturing process, it was not possible to calculate the actual costs incurred during manufacturing.
[0007]
This is because in the manufacturing industry, the idea of “total lead time = procurement lead time + manufacturing lead time” is based on the premise that manufacturing starts as soon as materials are delivered. However, in practice, since there is no material, manufacturing cannot be started, so it is safer to order materials as soon as possible and keep them in stock, and in many cases they have stock. As shown in FIG. 17, ideally, it is sufficient that the necessary parts in a certain manufacturing process can be procured immediately before, but there is a certain margin in view of the shortage of parts due to the inability to procure materials. For this period, it is inevitable that materials will be procured in advance. Therefore, in the manufacturing industry, apart from reducing the excess and deficiency of product supply, the issue of reducing the cost of having materials as inventory was very important. However, until now, evaluation values reflecting the cost of inventory have not been calculated.
[0008]
In particular, if a plurality of materials are kept in stock in one process, the cost increases accordingly, which is an important management item.
[0009]
Further, depending on the manufacturing industry, a material called a semi-finished product may be self-produced based on the procured material, and a final product may be produced based on the semi-finished product. For example, in the steel industry, iron ore, a raw material, is procured to produce a semi-finished product called a slab. And various final products including a plate product are manufactured by rolling etc. based on this slab. For example, as shown in FIG. 18, after a certain product is manufactured using a part of the slab 1, the remaining slab 2 is held in stock, and another product is manufactured using it. Done. In such a case, as described above, it is necessary to manufacture a large number of semi-finished products and keep them in stock so that various final product orders can be quickly handled. However, having a large inventory leads to high costs.
[0010]
In general, in order to reduce the manufacturing cost of products, the manufacturing industry has factories in areas with low labor costs and land, transports materials to factories in areas with low labor costs and land, and final products. The number of cases of assembling or final processing is increasing. However, in the case of the above-mentioned factories, there are many cases where the transportation period and procurement period of materials are long, and there is a tendency to have a large safety stock of parts. For this reason, it was impossible to calculate a cost actually generated during production reflecting the cost of inventory. Therefore, the cost has not been suppressed. In particular, many products handled in the manufacturing industry have a large number of parts and have a large inventory, leading to higher costs.
[0011]
Furthermore, in the case of having a plurality of factories, deciding in which factory the material is manufactured is a very important factor because it greatly affects the cost of the product. However, as described above, the factory may be determined in a state where the actual cost that reflects the cost of the inventory cannot be calculated, and the manufacturing may continue with the cost increased. A conventional selection method will be described with reference to FIGS. 19 and 20.
[0012]
FIG. 19 illustrates one conventional method of simply selecting a factory based on the speed at which the product is manufactured, and expresses the delivery date of the product as 30 days. From this figure, it can be seen that the factories that perform the production in time for delivery are C-factory and B-factory. Since C-Factory can be manufactured in the shortest time, C-Factory has been determined as a factory for manufacturing products.
[0013]
However, in the manufacturing industry, it is necessary not only to manufacture products quickly, but also to consider costs as described above. Therefore, in FIG. 20, a conventional selection method in which the material purchase cost of the product is represented on the x-axis will be described.
[0014]
In FIG. 20, the material purchase cost increases in the order of A-factory, B-factory, and C-factory. In other words, it can be seen that the factory that can meet the delivery date and reduce the material purchase cost is B-Factory. Therefore, B-Factory is determined as a factory for manufacturing products.
[0015]
However, in the conventional method described above, the cost related to inventory, which is a problem of the present application, is not considered at all for each material. For example, in FIG. 20, B-Factory is selected, but B-Factory is in a remote area, and it may be necessary to hold a large amount of inventory for manufacturing products. In this case, the B-factory costs a large amount of inventory, and if it is determined to be a B-factory, the cost becomes enormous. In spite of this, in the past, costs that took this into account were not calculated, and this problem was never considered.
[0016]
As described above, in the conventional manufacturing industry, production plans are made based on lead times in order to suppress oversupply and shortage of products to the market. It is desirable to regenerate the plan in consideration of the inventory cost. Despite the conventional problems, there has been no evaluation value related to the manufacture of products in consideration of inventory costs. In addition, having raw materials and semi-finished products with high unit prices in stock is not preferable from the viewpoint of cash flow.
[0017]
Accordingly, an object of the present invention is to calculate an evaluation value related to the manufacture of a product in consideration of a period (inventory lead time) in which a material such as a semi-finished product stays in stock together with the manufacturing lead time.
[0018]
In the production resource management system of the present invention, the material stay period information indicating the period in which the material constituting the product stays in stock for each material, and the period from the production start time to the shipment time of the product manufactured by the material An evaluation value for calculating an evaluation value for manufacturing the product for each product by adding the material staying period information of the material constituting the product and the manufacturing period information based on the manufacturing period information indicating It has a calculation means, It is characterized by the above-mentioned.
The evaluation value calculation method of the present invention is a production resource management system. With a computer that is , The computer is The material stay period information indicating the period during which the material constituting the product stays in stock for each material, and the production period information indicating the period from the production start time to the shipment time of the product manufactured by the material. Step to get and , The computer The material stay period information and the manufacturing period information of the material constituting the product are added. Step and execute Thus, an evaluation value related to the manufacture of the product is calculated for each product. Ruko And features.
The program of the present invention includes a material stay period information for each material that indicates a period during which a material constituting the product stays in stock, and a manufacture that indicates a period from a production start time to a shipment time of a product manufactured using the material. An evaluation value calculating step of calculating an evaluation value for manufacturing the product for each product by adding the material staying period information of the material constituting the product and the manufacturing period information based on the period information. The computer is executed.
[0019]
In the present invention, the evaluation value related to the manufacture of the product is calculated based on the material stay period information indicating the period during which the material stays in stock and the manufacture period information indicating the period from the start of manufacture of the product to the time of shipment. It is configured to do. Therefore, according to the present invention, it is possible to calculate the evaluation value reflecting the cost actually generated during the manufacture of the product by converting the cost required for inventory as the lead time.
[Brief description of the drawings]
[0020]
FIG. 1 is a block diagram showing a functional configuration of a production resource management system according to an embodiment of the present invention.
FIG. 2 is a diagram schematically illustrating an example of a table in a material DB.
FIG. 3 is a diagram schematically illustrating an example of a table in a production management DB.
FIG. 4 is a block diagram illustrating a hardware configuration of a production resource management system.
FIG. 5 is a flowchart showing information registration processing in a material DB.
FIG. 6 is a flowchart showing information registration processing in a production management DB.
FIG. 7 is a flowchart illustrating a material stay period, a product manufacturing period, an evaluation value calculation process, and the like.
FIG. 8 is a diagram for specifically explaining an evaluation value calculation method according to the embodiment of the present invention.
FIG. 9 is a diagram for specifically explaining an evaluation value calculation method according to the embodiment of the present invention.
FIG. 10 is a diagram for explaining a specific example of an evaluation value calculation method according to another embodiment of the present invention.
FIG. 11 is a diagram for explaining a specific example of an evaluation value calculation method according to another embodiment of the present invention.
FIG. 12 is a diagram for describing weighting of an evaluation value by a weighting unit.
FIG. 13 is a diagram for explaining a method of selecting a factory that manufactures a product at a reduced cost by using an evaluation value.
FIG. 14 is a bubble chart expressing the amount of material that can be supplied.
FIG. 15 is a flowchart illustrating a weighting index calculation process by a weighting unit.
FIG. 16 is a diagram for explaining a lead time composed of a procurement lead time and a manufacturing lead time.
FIG. 17 is a diagram for explaining a method of taking a conventional procurement lead time and manufacturing lead time.
FIG. 18 is a diagram for explaining that there is one need to store slabs in stock when manufacturing products from slabs that are semi-finished products.
FIG. 19 is a diagram for explaining a conventional method of simply selecting a factory based on the speed at which a product is manufactured.
FIG. 20 is a diagram for explaining a conventional selection method in which a material purchase cost of a product is represented by an x-axis.
BEST MODE FOR CARRYING OUT THE INVENTION
[0021]
DESCRIPTION OF EXEMPLARY EMBODIMENTS Hereinafter, preferred embodiments to which the invention is applied will be described in detail with reference to the accompanying drawings.
[0022]
FIG. 1 is a block diagram showing a functional configuration of a production resource management system according to an embodiment of the present invention. In FIG. 1, a production resource management system 100 includes a material management unit 101, a material DB (database) 102, a production management unit 103, a production management DB (database) 104, a material inventory period information calculation unit 105, and a production period information calculation unit 109. , The evaluation value calculation unit 106, the output control unit 107, the output unit 108, and the input unit 110.
[0023]
The material management unit 101 performs material ordering processing by transmitting material ordering information to an external terminal of the ordering party, and when material is received, the material arrival information is input. The The material arrival information includes a material ID which is identification information of the received material, and the arrival date of the material. When the arrival information is input, the material management unit 101 registers the material ID and the arrival date of the material included in the arrival information in the material DB 102. On the other hand, when the material for which the above arrival information is registered in the material DB 102 is used at the time of manufacturing the product, the material ID and the stock amount after use are input to the material management unit 101 as inventory information, and the material management is performed. The unit 101 registers the stock quantity in the material DB 102 in association with the corresponding material.
[0024]
The production management unit 103 inputs production plan information indicating a product production plan and product information indicating a material used for the product. The production plan information includes an order ID, which is product order identification information, and a product ID of the product for which the order has been placed. The product information includes a material ID of a material used when manufacturing the product. When the production plan information is input, the production management unit 103 registers the order ID and product ID included in the production plan information in the production management DB 104, and when the product information is input, the material included in the product information. The ID is registered in the production management DB 104. On the other hand, when the manufacture of the product whose production plan information and product information are registered in the production management DB 104 is started, the product ID, the order ID, and the start date are input to the production management unit 103 as start date information, and the production management is performed. The unit 103 registers the start date in the production management DB 104 in association with the corresponding product. Further, when the material ID registered in the product information is used at the time of manufacturing the product in which the production plan information and the product information are registered in the product management DB 104, the product ID, the order ID, the material ID, and the use date are used. The date information is input to the production management unit 103, and the production management unit 103 registers the use date in the production management DB 104 in association with the corresponding material. When a product having the production plan information and product information registered in the production management DB 104 is shipped, the product ID, order ID, and shipping date are input to the production management unit 103 as shipping information, and the production management unit 103 The shipping date is registered in the production management DB 104 in association with the corresponding product.
[0025]
Here, the table configuration in the material DB 102 will be described with a specific example. FIG. 2 is a diagram schematically illustrating an example of a table in the material DB 102. In FIG. 2, the material DB 102 includes a material ID registration field, an arrival date registration field, and an inventory amount registration field for each record. For example, information on the component ID “123” is registered in the uppermost record in FIG. 2. The component ID “123” is registered in the component ID registration field, and the arrival date “10” of the component is stored in the arrival date registration field. / 1 ", the stock quantity registration field is registered with the stock quantity" 100 "of the part after the part is used for product manufacture.
[0026]
Next, a table configuration in the production management DB 104 will be described with a specific example. FIG. 3 is a diagram schematically illustrating an example of a table in the production management DB 104. In FIG. 3, the production management DB 104 includes an order ID registration field, a product ID registration field, a start date registration field, a shipping date registration field, a used material ID registration field (in FIG. 3, a used material ID1 registration field to a used material ID3 registration field. Only the usage date registration field (in FIG. 3, only the usage date 1 registration field to the usage date 3 registration field are shown) is provided for each record.
[0027]
For example, information on the order ID “abc” is registered in the uppermost record in FIG. 3, the order ID “abc” is stored in the order ID registration field, and the order ID “abc” is manufactured in the product ID registration field. The product ID “28” of the requested product, the start date registration field “10/20” the date when the product was actually started, and the shipping date registration field “the date the product was actually shipped“ 12 / 1 ”, used material ID1 registration field to used material ID3 registration field, material ID“ 123 ”,“ 110 ”,“ 092 ”used for manufacturing the product, used date 1 registration field to used date 3 registration field "10/21", "10/20", and "10/22" are registered for each day using the material IDs "123", "110", and "092" when manufacturing the product. It has been.
[0028]
Returning to the description of FIG. Based on the arrival date registered in the arrival date registration field in the material DB 102 and the use date registered in the use date registration feed in the production management DB 104, the material inventory period information calculation unit 105 stores the corresponding material in stock. As a result, the period of stay in the warehouse or the like (stay period) is calculated. That is, the material inventory period information calculation unit 105 acquires records corresponding to each material of the product designated as the evaluation value calculation target by the user from the material DB 102 and the production management DB 104, and the received in the acquired record of each material. Referring to the date registration field and the use date registration field, the number of days from the arrival date to the use date is calculated for each material as the stay period of the material.
[0029]
The manufacturing period information calculation unit 109 uses the start date registered in the start date registration field in the production management DB 104 and the shipment date registered in the shipment date registration field in the production management DB 104 as well. Calculate the production period. That is, the manufacturing period information calculation unit 109 acquires a record corresponding to a product designated as an evaluation value calculation target by the user from the production management DB 104, and refers to the start date registration field and the shipping date registration field in the acquired record. Then, the manufacturing period of the product from the start date to the shipping date is calculated.
[0030]
The evaluation value calculation unit 106 adds the stay period of the stock of each material calculated by the material inventory period information calculation unit 105 and the product manufacturing period calculated by the manufacturing period information calculation unit 109, and manufactures the product. The evaluation value concerning is calculated.
[0031]
The output control unit 107 outputs the evaluation value calculated by the evaluation value calculation unit 106 from the output unit 108 and notifies the user of the evaluation value.
[0032]
The input unit 110 has a configuration corresponding to a keyboard controller 210, a keyboard 211, and the like, which will be described later, and can receive an instruction input according to an operation from the user.
[0033]
FIG. 4 is a block diagram showing a hardware configuration of the production resource management system 100. The CPU 201 comprehensively controls each device and controller connected to the system bus. The ROM 203 or HD 207 stores a basic input / output system (BIOS) that is a control program of the CPU 201, an operating system program, a program for the processing shown in FIGS. 5 to 7 executed by the production resource management system 100, and the like. Yes.
[0034]
In the example of FIG. 4, the hard disk (HD) 207 is configured to be arranged inside the production resource management system 100, but a configuration corresponding to the HD 207 is arranged outside the production resource management system 100 as another embodiment. It is good also as a structure. Further, for example, the program for performing the processing shown in FIG. 5 to FIG. 7 according to the present embodiment is recorded on a computer-readable recording medium such as a flexible disk (FD) 206 or a CD-ROM. It is good also as a structure supplied, and it is good also as a structure supplied via communication media, such as the internet.
[0035]
The RAM 202 functions as a main memory, work area, and the like for the CPU 201. The CPU 201 implements various operations by loading a program necessary for execution of processing into the RAM 202 and executing the program.
[0036]
The disk controller 205 controls access to external memories such as the HD 207 and the FD 206. The communication IF controller 204 is connected to the Internet or a LAN, and controls communication with the outside by, for example, TCP / IP.
[0037]
The display controller 208 controls image display on the display 209.
[0038]
The KB (keyboard) controller 210 receives an operation input from the keyboard (KB) 211 and transmits it to the CPU 201. Although not shown, a pointing device such as a mouse other than the keyboard 211 can also be applied to the production resource management system 100 according to the present embodiment as a user operation means.
[0039]
The arrival information, inventory information, product information, production plan information, shipping information, use date information, and start date information shown in FIG. 1 are input to the production resource management system 100 by the user's operation on the operation means such as the input unit 110. Alternatively, it may be input to the production resource management system 100 from another device under the control of the communication IF controller 204 via a communication line such as the Internet or a LAN.
[0040]
The material management unit 101, the production management unit 103, the material inventory period information calculation unit 105, the production period information calculation unit 109, and the evaluation value calculation unit 106 are stored in, for example, the HD 207 and loaded into the RAM 202 as necessary. This is a configuration corresponding to the CPU 201 that executes it.
[0041]
The material DB 102 and the production management DB 104 have a configuration corresponding to a part of the storage area in the HD 207, for example. The output control unit 107 has a configuration corresponding to, for example, the display controller 208, and the output unit 108 has a configuration corresponding to, for example, the display 209.
[0042]
Next, the operation of the production resource management system 100 according to the present embodiment will be described with reference to FIGS. FIG. 5 is a flowchart showing information registration processing in the material DB 102. FIG. 6 is a flowchart showing information registration processing in the production management DB 104. FIG. 7 is a flowchart showing the material stay period, product manufacturing period, evaluation value calculation processing, and the like.
[0043]
First, the information registration process to the material DB 102 by the material management unit 101 will be described with reference to FIG. In FIG. 5, when a material is received, the material management unit 101 receives the material arrival information (step S501). Subsequently, the material management unit 101 registers arrival information (material ID and arrival date) in the material DB 102 (step S502).
[0044]
On the other hand, when the material for which the arrival information is registered in the material DB 102 is used at the time of product manufacture, and the inventory information (the material ID and the inventory amount after using the material) is input to the material management unit 101 (step S503). The material management unit 101 registers the stock quantity in the material DB 102 in the record registered in step S502 corresponding to the input material ID (step S504).
[0045]
Next, information registration processing in the production management DB 104 by the production management unit 103 will be described with reference to FIG. In FIG. 6, when the production plan information and product information are input (step S601), the production management unit 103 receives the input production plan information (order ID, product ID), product information (material used for the product). ID) is registered in the production management DB 104 (step S602).
[0046]
On the other hand, when the manufacture of the product registered in the production management DB 104 is started and the start date information (product ID, order ID, start date of the product) is input to the production management unit 103 (step S603). The production management unit 103 registers the start date in the record corresponding to the product registered in step S602 corresponding to the input product ID and order ID (step S604).
[0047]
In addition, the material is used when the product registered in the production management DB 104 is manufactured, and the use date information (product ID, order ID, material ID, use date of the product) of the product is input to the production management unit 103. Then (step S607), the production management unit 103 registers the use date in the record corresponding to the product registered in step S602 corresponding to the input product ID, order ID, and material ID (step S608).
[0048]
When the product registered in the production management DB 104 is shipped and the shipping information (product ID, order ID, shipping date of the product) of the product is input to the production management unit 103 (step S605), the production management unit 103 registers the shipping date in the record corresponding to the product registered in step S602 corresponding to the input product ID and order ID (step S606).
[0049]
Next, the calculation process of the stay period information of material stock, the calculation process of the product manufacturing period, and the evaluation value calculation process will be described with reference to FIG.
[0050]
First, the user inputs a product ID and an order ID of a product for which an evaluation value is to be calculated (step S701). The manufacturing period information calculation unit 109 acquires a record corresponding to the input product ID and order ID from the production management DB 104 (step S702), and registers the shipping date from the start date registered in the start date registration field in the record. The production period information up to the shipping date registered in the field is calculated (step S703).
[0051]
Subsequently, the material inventory period information calculation unit 105 refers to the used material ID registration record in the record acquired in step S702, and acquires a record corresponding to the material ID registered in the used material ID registration record from the material DB 102. (Step S704). Next, the material inventory period information calculation unit 105 calculates, for each material, the stay period information of the material from the arrival date registered in the arrival date registration field to the use date registered in the use date registration field in each acquired record. (Step S705).
[0052]
Subsequently, the evaluation value calculation unit 106 adds the product manufacturing period information calculated by the manufacturing period information calculation unit 109 and the stay period information of each material calculated by the material inventory period information calculation unit 105, An evaluation value relating to the manufacture of the product is calculated (step S706).
[0053]
Subsequently, the output control unit 107 outputs the evaluation value calculated by the evaluation value calculation unit 106 using the output unit 108, and notifies the user (step S707).
[0054]
Next, the evaluation value calculated by the above-described configuration and operation will be described with a specific example. 8 and 9 are diagrams for specifically explaining the evaluation value calculation method in the present embodiment. In the figure, processes A, B, and C are product manufacturing processes using materials a, b, and c, respectively.
[0055]
First, the example shown in FIG. 8 will be described. Since the arrival date of the material a is “10/2” and the usage date is “10/6”, the material inventory period information calculation unit 105 calculates the stay period of the material a as “4 days”. Since the arrival date of the material b is “10/1” and the usage date is “10/11”, the material inventory period information calculation unit 105 calculates the stay period of the material b as “10 days”. Since the arrival date of the material c is “10/2” and the usage date is “10/14”, the material inventory period information calculation unit 105 calculates the stay period of the material c as “12 days”. Since the start date of product manufacture is “10/6” and the shipping date is “10/17”, the manufacturing period information calculation unit 109 calculates the manufacturing period of the product as “11 days”. Accordingly, the evaluation value is calculated by the evaluation value calculation unit 106 as follows.
“4 days” + “10 days” + “12 days” + “11 days” = “37 days (evaluation value)”
[0056]
Next, the example shown in FIG. 9 will be described. Since the arrival date of the material a is “10/2” and the usage date is “10/6”, the material inventory period information calculation unit 105 calculates the stay period of the material a as “4 days”. Since the arrival date of the material b is “10/5” and the usage date is “10/11”, the material inventory period information calculation unit 105 calculates the stay period of the material b as “6 days”. Since the arrival date of the material c is “10/2” and the usage date is “10/14”, the material inventory period information calculation unit 105 calculates the stay period of the material c as “2 days”. Since the start date of product manufacture is “10/6” and the shipping date is “10/17”, the manufacturing period information calculation unit 109 calculates the manufacturing period of the product as “11 days”. Accordingly, the evaluation value is calculated by the evaluation value calculation unit 106 as follows.
“4 days” + “6 days” + “12 days” + “11 days” = “33 days (evaluation value)”
[0057]
The specific example of the evaluation value calculation method has been described for the examples shown in FIGS. 8 and 9. In both the examples of FIGS. 8 and 9, the manufacturing period is the same as “11 days”. In the example, since the stay period of the materials b and c in the inventory is longer, a higher evaluation value than the example in FIG. 9 is calculated, and the inventory cost is reflected in the evaluation value. In this way, even if the production period of the product is the same, if the material b and the material c are kept in stock for a long time and the inventory cost becomes high, the evaluation value will take a high value. In comparison, it can be seen that the example of FIG. 8 is not preferable in terms of cost.
[0058]
As described above, according to the present embodiment, the evaluation value considering the period (stock lead time) from the date of arrival of the material to the date of use (stock lead time) as well as the period from the start date of product manufacture to the date of shipment (manufacturing lead time). It is possible to calculate. Therefore, the user can grasp the overall cost evaluation for product production based on the inventory cost by referring to the evaluation value.
[0059]
Next, another embodiment of the present invention will be described. In this embodiment, it is possible to calculate an evaluation value that takes into account the inventory cost until all the necessary materials are used up in the product manufacturing process. Thus, as shown in FIG. 18, when a certain product is manufactured by repeating a process using a semi-finished product as a material, the stock generated in the slab 2 stage and the slab 3 stage is also reflected as a cost. An evaluation value can be calculated.
[0060]
In this method, the period from the time when a material is received until the end of the manufacturing process in which the material is used is treated as the material stay period. FIG. 10 is a diagram for explaining a specific example of the evaluation value calculation method according to another embodiment of the present invention.
[0061]
For example, as shown in FIG. 10, when the arrival date of the material a is “10/2” and the end point of the process A in which the material a is used is “10/11”, the material inventory period information calculation unit 105 Calculates the stay period of the material a as “9 days”. Since the arrival date of the material b is “10/1” and the end point of the process B in which the material b is used is “10/14”, the material inventory period information calculation unit 105 sets the stay period for the material b. Calculate as “13 days”. In addition, since the arrival date of the material c is “10/2” and the end time of the process C in which the material c is used is “10/17”, the material inventory period information calculation unit 105 stays about the material c. The period is calculated as “15 days”. Further, since the manufacturing start date of the product is “10/6” and the shipping date is “10/17”, the manufacturing period information calculation unit 109 calculates the manufacturing period of the product as “11 days”. Accordingly, the evaluation value is calculated by the evaluation value calculation unit 106 as follows.
“9 days” + “13 days” + “15 days” + “11 days” = “48 days (evaluation value)”
[0062]
Thus, in this embodiment, it is possible to calculate an evaluation value that takes into account the inventory cost until all the necessary materials are used up in the product manufacturing process.
[0063]
Subsequently, another embodiment of the present invention will be described. In the present embodiment, it is possible to calculate an evaluation value in consideration of inventory costs when a product is manufactured by combining a plurality of materials in each step.
[0064]
FIG. 11 is a diagram for explaining a specific example of an evaluation value calculation method according to another embodiment of the present invention.
[0065]
For example, as shown in FIG. 11, the arrival date of the material a is “10/1”, the arrival date of the material b is “10/3”, and the use date of the process A in which the materials a and b are used is “10”. In the case of / 8, the material inventory period information calculation unit 105 calculates the stay period for the material a as “7 days” and the stay period for the material b as “5 days”. In the process B in which the material C is combined with the material manufactured in the process A, the arrival date of the material c is “10/3”, and the use date of the process B in which the material c is used is “10/10”. The material inventory period information calculation unit 105 calculates the stay period of the material a as “7 days”. Similarly, when the arrival date of the material d is “10/3” and the use date of the process C in which the material d is used is “10/12”, the material inventory period information calculation unit 105 calculates the stay period for the material d. Calculate “9 days”. Further, since the manufacturing start date of the product is “10/8” and the shipping date is “10/15”, the manufacturing period information calculation unit 109 calculates the manufacturing period of the product as “7 days”. Accordingly, the evaluation value is calculated by the evaluation value calculation unit 106 as follows.
“7 days” + “5 days” + “7 days” + “9 days” + “7 days” = “35 days (evaluation value)”
[0066]
As described above, in the present embodiment, even when a product is completed through a manufacturing process in which a plurality of materials of the product are combined, it is possible to calculate an evaluation value in consideration of inventory costs.
[0067]
In the present embodiment, as described above, the evaluation value calculation unit 106 includes the stay period of each material calculated by the material inventory period information calculation unit 105, and the product manufacturing period calculated by the manufacturing period information calculation unit 109. The evaluation value related to the manufacture of the product is calculated. As another embodiment, at least one of the material inventory period information calculation unit 105 and the production period information calculation unit 109 is provided in an external device connected to the production resource management system 100 via a communication line such as the Internet. You can also. In this case, the production resource management system 100 acquires at least one of the stay period of each material and the production period of the product calculated by the external device, and an evaluation value related to the manufacture of the product is obtained by the evaluation value calculation unit 106. calculate. In addition, when the residence period of each material is acquired from the external device, the material inventory period information calculation unit 105 is not required from the production resource management system, and when the manufacturing period is acquired from the external device, the manufacturing is performed from the production resource management system. The period information calculation unit 109 becomes unnecessary.
[0068]
As yet another embodiment, at least one of the stay period of each material and the production period of the product is input via the input unit 110 by the user's operation, and is stored in the RAM 202 of FIG. It is also possible to calculate an evaluation value relating to the manufacture of the product by using the stay period of each material held in the RAM 202 and the manufacture period of the product. Also in this case, when the stay period is input, the material inventory period information calculation unit 105 is not required from the production resource management system, and when the production period is input, the production period information calculation unit 109 is not required from the production resource management system. Become.
[0069]
As still another embodiment, a weighting unit may be provided that calculates an index value that takes into account the influence of material stock on product manufacturing. As the weighting by the weighting unit, weighting according to the unit price of the material or the inventory price per unit quantity of the material can be considered. The inventory price is a value obtained by evaluating the cost of the inventory stay period, the degree of influence of the inventory on the business, and the like. For example, even if the inventory period is 10 days, inventory management is required for materials that are very demanding, expensive, and care-free for storage materials, and materials that are very low-demand, inexpensive, and storage locations are not specified. In terms of cost, different evaluations should be made. The weighting unit is a function that reflects these in the evaluation value in consideration of these.
[0070]
The evaluation value weighting by the weighting unit will be described with reference to FIG. As the weighting, the unit price at the time of procurement of materials, the exchange rate, the service life, the level of demand, etc. can be considered. FIG. 12 shows a weighting DB 112 used for this weighting. The weighting DB 112 is provided with a weighting ID, material ID, procurement unit price, exchange rate at the time of procurement, and life span for each record. For example, information on the weighting ID “001” is registered in the uppermost record in FIG. 12. The weighting ID registration field has a weighting ID “001”, the material ID registration field has a material ID “125”, and procurement. In the unit price registration field, the unit price of the material at the time of procurement is “1.5 dollars”, in the exchange registration field at the time of procurement, the exchange rate at the time of procurement is “100 yen / dollar”, and in the life registration field, the life of the material is “15 months”. It is registered. The weighting DB 112 has a configuration corresponding to a part of the storage area in the HD 207, like the material DB 102 and the like.
[0071]
As described above, the values set in the fields of FIG. 12 are multiplied and handled as a weighting index. For example, it is assumed that the material inventory period of the material with the weight ID “001” and the material ID “125” is 20 days. From FIG. 12, the weighting index in this case = “unit price 1.5” × “exchange 100 at the time of procurement” × “1 / life of 15 months” = 10. Accordingly, the material inventory period is calculated as 20 × 10 6 = 200 days. Similarly, from FIG. 12, when the weighting index of weighting ID002 and material ID123 is calculated, “10” × “120” × “1/1” = 1200. Therefore, the material inventory period is calculated as 20 × 1200 = 24000 days.
[0072]
The weighting index calculation flow by the weighting unit will be described with reference to FIG. For example, as illustrated in FIG. 15, a record associated with the material ID held in step 704 is acquired from the weighting DB 112 (step 1501). Processing is performed based on a predetermined calculation formula (in the above example, multiplication formula) using each field of the record, and a weighting index is calculated (step 1502). Then, using the calculated weighting index and the material inventory period, an evaluation value reflecting the weighting index is calculated (step 1503).
[0073]
The specific examples of the weighting index value and the material inventory period calculation method reflecting the weighting index value have been described above with reference to FIGS. 12 and 15. Both materials have the same number of days as “material inventory period = 20 days”, but “weighting ID = 002”, which is a material that is not preferable in terms of cost, is more expensive than “weighting ID = 001”. The index and evaluation value are calculated higher. That is, it is reflected in the index and the evaluation value.
[0074]
As described above, according to the present embodiment, it is possible to calculate an evaluation value in consideration of the influence of having a material as an inventory on the cost side. Therefore, the user can grasp the strict cost evaluation based on the property of each material by referring to the index and the evaluation value.
[0075]
Needless to say, an index can be expressed not only by multiplying each field but also by addition, subtraction, division, and the like. For example, as described above, having a material with a shorter lifetime has a bad effect on cost. In such a case, for example, when a life registration field for registering the life is registered in the weighting DB 112 and the calculated weighting index is divided by the life registration field, an evaluation index value of the material inventory considering the life is calculated.
[0076]
In the above-described embodiment, the number of days is used as the unit of the evaluation value. However, the present invention is not limited to this, and the unit of month, week, time, etc. may be used, or a value obtained by converting those values may be used. .
[0077]
In the above-described embodiment, the calculation of the evaluation value in consideration of the inventory period of the product manufactured in various processes and the evaluation value in consideration of the property of the stock of the material used for manufacturing has been described. A method for selecting a factory for manufacturing a product at a reduced cost using FIG. 13 will be described with reference to FIG. As described above, determining at which factory the material is manufactured is a very important issue because it greatly affects the cost of the product.
[0078]
In FIG. 13, unlike the conventional method (FIGS. 16 and 17), the material inventory period is combined with the material purchase cost. This makes it possible to select a factory that can manufacture products at a reduced cost that is actually incurred during production because it takes into account the cost of inventory, unlike the simple method of comparing construction periods and material purchase costs. It becomes. This will be described with reference to FIG. The material purchase cost is the consideration paid when the material is purchased.
[0079]
In FIG. 13, the combination of the material cost and the material inventory period increases in the order of A-factory, C-factory, and B-factory. That is, when the delivery date is set to 30 days as in FIG. 17, it can be seen that the factory that manufactures in time for the delivery date and reduces the material purchase cost is C-Factory. This is because the cost generated at the time of manufacturing for each material is taken into consideration using the evaluation value. As described above, the present embodiment presents information that cannot be grasped by simply comparing the material purchase costs as shown in FIG. 17, so that it is possible to select a factory that actually manufactures a product at a reduced cost. The problem of the present application can be solved.
[0080]
In addition, when the material inventory period is calculated using the weighting unit as described above, it is possible to select a factory that is not limited to the above-described combination with the material purchase cost but also suitable for the situation. For example, when using a foreign exchange, it is possible to present which factory among a plurality of factories overseas can produce a valuable product and a product with reduced cost.
[0081]
In addition, since the value of a product varies depending on the situation of time, even if the product can be manufactured at low cost if the product has no value at the time of completion of manufacture, there is no meaning. For example, in FIG. 13, if the delivery date is 10 days or less, the C-Factory should be selected, and if the delivery date is 40 days or more, the A-Factory should be selected. Yes. Therefore, by using the material inventory period as shown in FIG. 13, it is possible to select a factory that realizes production of a valuable product and a product with reduced cost. As a result, the production of unnecessary products can be suppressed, and the costs associated therewith can be reduced.
[0082]
Further, in FIG. 14, the amount of material that can be supplied can be represented by a bubble chart. Thereby, since the quantity of the material which a factory can supply can be shown, it becomes possible to show the factory which can supply the quantity required at the time of manufacture. Therefore, it is possible to select a factory that manufactures a product at a reduced cost, reflecting the situation more accurately, taking into consideration that the required amount can be reliably secured.
Industrial applicability
[0083]
According to the present invention, it is possible to calculate the evaluation value reflecting the cost actually generated during the manufacture of the product by converting the cost required for inventory as the lead time for each material.

Claims (8)

  Based on the material stay period information that indicates the period in which the material constituting the product stays in stock for each material, and the production period information that indicates the period from the start of manufacture of the product manufactured by the material to the time of shipment, An evaluation value calculation means for calculating an evaluation value related to the manufacture of the product for each product by adding the material stay period information and the manufacturing period information of the material constituting the product. Production resource management system.   2. The production resource management system according to claim 1, wherein the material stay period information is information indicating a period from a time when the material is received to a time when the material is used for manufacturing the product. .   The production resource management system according to claim 1, wherein the material stay period information is information indicating a period from a time when the material is received to a time when a manufacturing process in which the material is used is completed. A weighting means for weighting the material stay period information corresponding to the material;
The production resource according to claim 1, wherein the evaluation value calculation unit calculates the evaluation value based on the material stay period information weighted by the weighting unit and the manufacturing period information. Management system.   The production resource management system according to claim 4, wherein the weighting unit performs weighting according to a unit price of the material.   The production resource management system according to claim 4, wherein the weighting unit performs weighting according to an inventory price per unit quantity of the material. Using a computer that is a production resource management system,
The material staying period information for each material indicating the period during which the material constituting the product stays in stock, and the manufacturing period information indicating the period from the start of manufacture of the product manufactured by the material to the time of shipment. acquiring, the computer, by executing the step of adding the materials stay information of the material of the pre-Symbol product and the said manufacturing period information, the evaluation value of production of the product evaluation value calculation method according to claim and Turkey be calculated for each product.   Based on the material stay period information that indicates the period in which the material constituting the product stays in stock for each material, and the production period information that indicates the period from the start of manufacture of the product manufactured by the material to the time of shipment, Adding the material stay period information of the material constituting the product and the manufacturing period information to cause the computer to execute an evaluation value calculating step for calculating an evaluation value related to the manufacture of the product for each product. program.

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