JP2006313457A - PDM system - Google Patents

Abstract

Price management is facilitated when the unit price differs according to the number of lots.
In a PDM system in which a plurality of computers 1, 2, 3,... Are integrated through a network, a database 4 is constructed in a server, and an M-BOM is stored and managed in the database 4. 4. A unit price management unit that creates, updates, and maintains a unit price table corresponding to the number of lots for each process, and searches the unit price table according to the input parts and lot numbers, and configures the parts. A price presentation unit that extracts the unit price corresponding to the number of lots of the process and calculates and presents the total price is provided.
[Selection] Figure 1

Description

  The present invention relates to an improvement of a PDM (Product Data Management) system.

  The PDM system is an information system that aims to improve the efficiency of the process and shorten the period by centrally managing complex and enormous information ranging from product planning, development, design, manufacturing, sales, and maintenance in the manufacturing industry. .

  In this PDM system, a design parts table, a manufacturing parts table, and the like are managed. The design parts table is composed of technical information and specifications of parts, information such as substitutable parts, and is referred to as E-BOM (Engineering Bill Of Material). Further, the manufacturing parts table is a parts table that is referred to at the time of product manufacture in the production process of the factory, is created from E-BOM, and is referred to as M-BOM (Manufacturing Bill Of Material).

  The M-BOM includes process attribute information as information related to the manufacture of each component. As attributes of this process, there are a process type such as machining or plating, a price, and a processing destination (ordering party). These attribute values are determined when the M-BOM is created. The price and the processing destination are determined by comparing estimated prices from a plurality of processing destinations. In addition, the cost is calculated from the total price of each part.

In this case, the price of each part is obtained by multiplying the unit price by the number manufactured at once or the number ordered (collectively referred to as the number of lots). However, the unit price of each component has a factor that varies according to the number of lots. In some cases, the number of lots is not affected. Therefore, it is necessary to pay attention to the following points when determining prices.
1) The number of lots may vary from part to part.
2) The number of lots varies from part to part.
3) The number of lots may have a certain number range depending on the part, and it is necessary to select a unit price by recognizing the range of the number of lots according to the necessary number to be manufactured.
4) There is a default unit price that is not affected by the number of lots.

  However, the conventional PDM system cannot manage the unit price corresponding to the number of lots, and there is a problem that it is not easy to determine the price while paying attention to the above.

  An object of the present invention is to provide an improved PDM system so that price management according to the number of lots can be easily performed.

  In order to achieve the above object, according to the present invention, in a PDM system comprising means for storing and managing an M-BOM having process attribute information including type of process, price, and processing destination as information related to manufacture of each part The M-BOM storage / management means includes a unit price management means for creating / updating / maintaining a unit price table corresponding to the number of lots for each process, and the unit price table corresponding to the input parts and lot number. And a price presenting means for calculating and presenting a total price by extracting a unit price corresponding to the number of lots of each of the processes constituting the part.

  In the PDM system, an M-BOM having process attribute information including a process type, a price, and a processing destination is stored and managed as information regarding manufacture of each part. The M-BOM storage / management means includes unit price management means for creating / updating / maintaining a unit price table corresponding to the number of lots for each process, and the unit price table corresponding to the input process and lot number. And a price presenting means for calculating and presenting a price by extracting a corresponding unit price. The unit price of parts is generally determined according to the number of lots, but varies depending on the processor and the supplier, and also varies depending on the ordering time. Moreover, the lot number range in which the unit price is determined also varies depending on the trader and the time. The unit price management means can input these at any time to create, update, or maintain the unit price table. When it is necessary to actually determine or determine the price (cost), if you specify the part and enter the number of lots, the price presentation means will search the unit price table for each process described above, and find the part. The unit price corresponding to the number of lots in each process is extracted and the total price is calculated and presented. Therefore, cost management corresponding to the number of lots to be actually manufactured can be easily performed.

  Next, a PDM system embodying the present invention will be described with reference to the drawings.

  The PDM system according to the present invention can be configured by a single computer, but here, a plurality of computers 1, 2, 3,... Are connected by a network as shown in FIG. One of the computers 1 is a server, and the database 4 is constructed in the server. Specifically, the database 4 includes a recording device such as a hard disk device that records information, and hardware and software that stores and manages information.

  This database 4 stores and manages M-BOMs. As illustrated in FIG. 2, the M-BOM includes information on each assembly part constituting each product (final assembly), information on each part, and manufacturing information such as a process of each part. They are related based on the parent-child relationship in manufacturing. Attribute information is attached to each process. This process attribute information includes a process type such as machining, plating, or painting, a processing destination (ordering party), a price, and the like. These attribute values are determined when the M-BOM is created. The price and the processing destination are determined by comparing estimated prices from a plurality of processing destinations.

  This M-BOM is usually created and edited based on a design parts table (E-BOM) created by the designer for the product and registered in the database 4. This E-BOM is the basis for the product, and includes drawings, documents, etc. associated with parts, including a parent-child relationship between parts. An M-BOM is created by determining a process with reference to drawings associated with the E-BOM parts.

  At that time, the price and the processing destination are determined by estimating from a plurality of processing destinations and comparing them as described above. However, the cost unit price varies depending on the number of lots. In addition, the unit price for each lot number and the lot number range for each unit price may vary depending on the processor or time.

  FIG. 3 shows an example of a table representing the unit price for each process in FIG. FIG. 3A shows the unit price for each number of lots for each of the process 700 (machining), the process 650 (plating), and the process 654 (painting) regarding the item 100-00003. FIG. 3B shows the unit price for each lot for the process 700 (machining) of the item 100-00004. Step 715 (assembly) for the item 100-00001 shown in FIG. 3C has only a default unit price that is not affected by the number of lots. In other tables, the default unit price is the unit price when the number of lots is one. FIG. 3D shows the unit price (purchased unit price) for the item 050-00002 (purchased product) for each lot number.

  In this way, the unit purchase price and process unit price change according to the number manufactured at one time or the number ordered at one time, and also change depending on the time, and the lot number range of the same unit price may also vary. In the unit price table, the number of lots and the unit price can be input and changed at any time. That is, the database 4 includes a unit price management unit 5 that creates, updates, and maintains a unit price table corresponding to the number of lots for each process as shown in FIG. There is provided a price presentation unit 6 that searches the unit price table, extracts the unit price corresponding to the number of lots of the processes constituting the part, calculates and presents the total price.

  In the unit price management unit 5, the process is specified by operating a keyboard, mouse, etc. from the computers 1, 2, 3, etc., so that the unit price can be input for each lot number range. When the screen is displayed and the input is accepted, the unit price table is created or updated and then saved as the unit price table. In this way, the unit price table as shown in FIG. 3 is created and updated for each process, and when it is desired to refer to the price in this state, first the computers 1, 2 are operated by the operation of the price presentation unit 6. The item (part number) and lot number input screen is displayed on a display such as 3. By operating a keyboard, mouse, etc. using this input screen, it is possible to input the item to be referred to and the number of lots. When an item and the number of lots are entered, the parts and processes that make up the item are searched from the above table, the unit price corresponding to the number of lots is extracted, and each unit price is added up and totaled. The price will be calculated and displayed on the display.

  FIG. 5 is a display example of the total price for each item calculated and displayed in this way. FIG. 5 (a) is for a single part (item 100-00003). Since this part is made through processes 700 (machining), 650 (plating), and 654 (painting), The sum of unit prices for each process is the total price. Here, the total amount for each lot number of 1, 5, 20, 100 is displayed. FIG. 5B is a display example of the total price for the assembly part (item 100-00001). Since this assembly part is made by combining a single part (item 100-00003) and a single part (item 100-00004), the sum of the unit price of each single part and the unit price of the wage for assembly (step 715) is the sum. Price. Here, for the step 715, since there is no lot number in the table shown in FIG. 2C, the default price is used. Also in this case, the total unit price for each of the lot numbers 1, 5, 20, and 100 is shown.

  FIG. 5C shows the total price of each of the lot numbers 1, 5, 20, and 100 for the final assembly (100-00000). This final assembly consists of assembly parts (item 100-00001) and purchased items (item 050-00002), and the unit price is simply the sum of them.

  FIG. 5 (d) shows the total unit price for a certain process 700 (machining) common to each part (in this case, item 100-00003 and item 100-00004). By performing such display, price management corresponding to the number of lots of the same processor (ordering party) becomes easy.

  The above description relates to one embodiment of the present invention, and it goes without saying that specific configurations and the like can be variously changed without departing from the spirit of the present invention.

  According to the PDM system according to the present invention, the unit price corresponding to the number of lots can be easily managed and the price can be easily determined while paying attention to the number of lots. This can contribute to further improving the efficiency up to management.

The schematic diagram of the PDM system concerning one Example of this invention. The figure which shows the example of M-BOM in the Example. The figure which shows the example of a lot number corresponding | compatible unit price table for every process in the Example. The block diagram which shows the unit price management part and price presentation part in the Example. The figure which shows the example of a display of the total unit price for every part in the Example.

Explanation of symbols

1, 2, 3 Computer 4 Database 5 Unit price management section 6 Price presentation section

Claims (1)

  In the PDM system including means for storing and managing M-BOM having process attribute information including process type, price, and processing destination as information related to the manufacture of each part, the M-BOM storage / management means includes: Unit price management means for creating / updating / maintaining a unit price table corresponding to the number of lots for each process, and searching the unit price table according to the input parts and the number of lots, and for each of the processes constituting the part A PDM system comprising price presenting means for extracting a unit price corresponding to the number of lots and calculating and presenting a total price.

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