JP2020161042A - Manufacturing instruction data creation device, manufacturing instruction data creation method and manufacturing instruction data creation program - Google Patents

Abstract

To provide a manufacturing instruction data creation device, etc. by which manufacturing instruction data including manufacturing instruction information for at least one's own charge can be created at arbitrary timing for each one's charge.SOLUTION: The manufacturing instruction data creation method comprises: (1) acquiring, from a manufacturing configuration master including products, components, and the number of components, components associated with a product in order reception information, further acquiring, from a commodity master including components and related departments, a related department associated with the acquired components, and creating management data including the acquired related department; (2) determining whether a specified department is present among the created management data; (3) in a case where the specified department is present, acquiring, from the manufacturing configuration master, the components associated with the product in the order reception information and the number of components; (4) in a case where the specified department is present, acquiring, from the commodity master, the related department associated with the acquired components; and (5) creating manufacturing instruction data including an order reception number in the order reception information, a component acquired in (3), a value obtained by multiplying the acquired number of components by the number of received orders in the order reception information, and the acquired related department.SELECTED DRAWING: Figure 3

Description

The present invention relates to a manufacturing instruction data generation device, a manufacturing instruction data generation method, and a manufacturing instruction data generation program.

Patent Document 1 discloses a manufacturing instruction issuing method and a manufacturing instruction issuing system that can collectively output a manufacturing instruction of a product by allocating an output destination from a plurality of drawing terminals (Patent Document 1). See paragraph 0005 of 1).

Japanese Unexamined Patent Publication No. 2004-062817

In recent years, in the manufacturing industry, due to the complicated composition of products and the increase in manufacturing volume due to the increase in order volume, the manufacturing department has been divided into multiple departments, and each unit (product part) has been divided. The division of labor is becoming more common.

Under such a division of labor system, in the prior art represented by the above-mentioned Patent Document 1, a manufacturing instruction sheet including manufacturing instruction information for all the plurality of departments is provided in the management department by the number of the plurality of departments. The method was to copy and distribute to each of the plurality of departments.

However, in this method, there is a problem that the plurality of departments lack promptness because they have to wait for the manufacturing instructions to be distributed from the management department.

For this reason, since the plurality of departments need at least information on the manufacturing instructions of their own department (in charge of themselves), there has been a demand for a method that can be quickly grasped.

The present invention has been made in view of the above problems, and it is possible to generate manufacturing instruction data including at least manufacturing instruction information about one's own person at an arbitrary timing of each person in charge. It is an object of the present invention to provide a document data generation device, a manufacturing instruction data generation method, and a manufacturing instruction data generation program.

In order to solve the above-mentioned problems and achieve the object, the manufacturing instruction data generation device according to the present invention is a manufacturing instruction data generation device including a control unit and a storage unit, and the storage unit includes a product. A product management master including product identification data for identifying the product, component identification data for identifying the parts constituting the product, and the quantity of used parts, which is the quantity of the parts used in manufacturing one product. , The responsible management master including the part identification data and the responsible identification data for identifying the department or person in charge of manufacturing or managing the part, and the order identification data for identifying the order and the ordered product. The ordered product identification data for the purpose, the ordered quantity including the ordered quantity of the ordered product, and the ordered data including the ordered product are stored, and the control unit receives the ordered product identification data in the ordered data from the product management master. Acquires the part identification data associated with, and further acquires the person in charge identification data associated with the acquired part identification data from the person in charge management master, and generates instruction issuance management data including the acquired person in charge identification data. The instruction issuance generation means, the determination means for determining whether or not the designated person in charge identification data exists or does not exist in the instruction issuance management data generated by the instruction issuance generation means, and the determination means. When it is determined that it exists, the parts acquisition means for acquiring the part identification data associated with the ordered product identification data in the order data and the quantity of used parts from the product management master, and the determination means determine that the existence exists. , The person in charge acquisition means for acquiring the person in charge identification data associated with the part identification data acquired by the part acquisition means, the order identification data in the order data, and the part acquisition means acquired from the person in charge management master. A manufacturing instruction including the part identification data, a value obtained by multiplying the used part quantity acquired by the part acquisition means by the order quantity in the order data, and the charge identification data acquired by the charge acquisition means. It is characterized in that it includes a manufacturing instruction generating means for generating manufacturing instruction data which is the original data when the document is output.

In order to solve the above-mentioned problems and achieve the object, the manufacturing instruction data generating apparatus according to the present invention has the manufacturing instruction generating means and the determining means designated in the instruction issuing management data. It is determined that the person in charge identification data exists, it is determined that the date and time when the latest production instruction associated with the designated person in charge identification data does not exist in the instruction instruction issuance management data, and the instruction is issued. When it is determined that the date and time when the manufacturing instruction is first issued, which is associated with the designated responsible identification data, does not exist in the management data, the manufacturing including information that can identify that a new manufacturing instruction is issued. The instruction sheet data is generated, the determination means determines that the designated person in charge identification data exists in the instruction sheet issuance management data, and is linked with the designated person in charge identification data in the instruction sheet issuance management data. If it is determined that the date and time when the latest production instruction is issued does not exist, and the date and time when the production instruction associated with the designated person in charge identification data is first issued exists in the instruction issuance management data. When it is determined, it is characterized in that the manufacturing instruction data including the information identifiable to issue the manufacturing instruction whose contents have been changed is generated.

In order to solve the above-mentioned problems and achieve the object, the manufacturing instruction data generation device according to the present invention is manufactured based on the manufacturing instruction data generated by the control unit by the manufacturing instruction generating means. It is characterized by further including a manufacturing instruction output means for outputting an instruction sheet.

Further, the manufacturing instruction data generation method according to the present invention is a manufacturing instruction data generation method executed by an information processing apparatus including a control unit and a storage unit, and the storage unit is used to identify a product. A product management master including product identification data, part identification data for identifying parts constituting the product, and the number of parts used, which is the quantity of the parts used in manufacturing one product, and part identification data. A responsible management master that includes responsible identification data for identifying the department or person in charge of manufacturing or managing the parts, and order identification data for identifying orders and order product identification for identifying the ordered products. The data and the order data including the order quantity, which is the quantity of the ordered product, are stored, and the order product identification data in the order data is linked from the product management master executed by the control unit. An instruction sheet that acquires the attached part identification data, further acquires the person in charge identification data associated with the acquired part identification data from the person in charge management master, and generates instruction instruction issuance management data including the acquired person in charge identification data. The issue generation step, the determination step of determining whether or not the designated person in charge identification data exists or does not exist in the instruction issue issuance management data generated in the instruction instruction issuance generation step, and the determination step of the determination step. When it is determined, the component acquisition step for acquiring the component identification data associated with the ordered product identification data in the order data and the quantity of used components from the product management master, and the component acquisition step for acquiring the quantity of used components, and when it is determined in the determination step that the product exists, the said From the responsible management master, the responsible acquisition step for acquiring the responsible identification data associated with the part identification data acquired in the component acquisition step, the order identification data in the order data, and the component acquired in the component acquisition step. A manufacturing instruction including the identification data, the value obtained by multiplying the used parts quantity acquired in the parts acquisition step by the order quantity in the order data, and the charge identification data acquired in the charge acquisition step. It is characterized by including a manufacturing instruction generation step of generating manufacturing instruction data which is the original data at the time of output.

Further, the manufacturing instruction data generation program according to the present invention is a manufacturing instruction data generation program for being executed by an information processing apparatus including a control unit and a storage unit, and the storage unit is used to identify a product. Product identification data including product identification data, part identification data for identifying the parts constituting the product, and the number of parts used, which is the quantity of the parts used in manufacturing one product, and the part identification data. And the responsible management master including the responsible identification data for identifying the department or person in charge of manufacturing or managing the part, the order identification data for identifying the order, and the ordered product for identifying the ordered product. The identification data, the order quantity, which is the quantity of the ordered product, and the order data including the order quantity are stored, and the order product identification data in the order data is stored from the product management master for execution by the control unit. Acquires the part identification data associated with, and further acquires the person in charge identification data associated with the acquired part identification data from the person in charge management master, and generates instruction issuance management data including the acquired person in charge identification data. The instruction issuance generation step, the determination step of determining whether or not the designated person in charge identification data exists or does not exist in the instruction issuance management data generated in the instruction issuance generation step, and the determination step. When it is determined that it exists, the part acquisition step for acquiring the part identification data and the quantity of used parts associated with the ordered product identification data in the order data from the product management master, and the case where it is determined in the determination step that the existence exists. , The person in charge acquisition step of acquiring the person in charge identification data associated with the part identification data acquired in the part acquisition step, the order identification data in the order data, and the part acquisition step acquired from the person in charge management master. A manufacturing instruction including the part identification data, a value obtained by multiplying the used part quantity acquired in the part acquisition step by the order quantity in the order data, and the charge identification data acquired in the charge acquisition step. It is characterized by including a manufacturing instruction generation step of generating manufacturing instruction data which is the original data when the document is output.

According to the present invention, it is possible to generate manufacturing instruction data including at least manufacturing instruction information about one's own person at an arbitrary timing of each person in charge.

FIG. 1 is a block diagram showing an example of the configuration of the manufacturing instruction data generation device. FIG. 2 is a diagram showing an example of a manufacturing configuration master and a product master. FIG. 3 is a diagram showing an example of a case where a new manufacturing instruction is generated by the assembly section when the order data is newly registered. FIG. 4 is a diagram showing an example of a case where the assembly section generates a modified manufacturing instruction and the XX section generates a new manufacturing instruction when the order data is modified and registered. FIG. 5 is a diagram showing an example of a flowchart for issuing a manufacturing instruction.

Hereinafter, embodiments of the manufacturing instruction data generation device, the manufacturing instruction data generation method, and the manufacturing instruction data generation program according to the present invention will be described in detail with reference to the drawings. The present invention is not limited to the present embodiment. Hereinafter, a specific configuration and operation will be described.

[1. Constitution]
An example of the configuration of the manufacturing instruction data generation device 100 according to the present embodiment will be described with reference to FIG. FIG. 1 is a block diagram showing an example of the configuration of the manufacturing instruction data generation device 100.

The manufacturing instruction data generation device 100 is a commercially available desktop personal computer. The manufacturing instruction data generation device 100 is not limited to a stationary information processing device such as a desktop personal computer, but is a commercially available notebook personal computer, PDA (Personal Digital Assistants), smartphone, tablet personal computer, and the like. It may be a portable information processing device of.

The manufacturing instruction data generation device 100 includes a control unit 102, a communication interface unit 104, a storage unit 106, and an input / output interface unit 108. Each part of the manufacturing instruction data generation device 100 is communicably connected via an arbitrary communication path.

The communication interface unit 104 connects the manufacturing instruction data generation device 100 to the network 300 so as to be communicable via a communication device such as a router and a wired or wireless communication line such as a dedicated line. The communication interface unit 104 has a function of communicating data with another device via a communication line. Here, the network 300 has a function of connecting the manufacturing instruction data generation device 100 and the server 200 so as to be able to communicate with each other, and is, for example, the Internet or a LAN (Local Area Network). Data of various masters and the like, which will be described later, may be stored in the server 200, for example.

An input device 112 and an output device 114 are connected to the input / output interface unit 108. As the output device 114, a speaker or a printer can be used in addition to a monitor (including a home television). In addition to the keyboard, mouse, and microphone, the input device 112 can use a monitor that cooperates with the mouse to realize the pointing device function. In the following, the output device 114 may be referred to as a monitor 114, and the input device 112 may be referred to as a keyboard 112 or a mouse 112.

Various databases, tables, files, and the like are stored in the storage unit 106. In the storage unit 106, a computer program for giving a command to a CPU (Central Processing Unit) in cooperation with an OS (Operating System) to perform various processes is recorded. As the storage unit 106, for example, a memory device such as a RAM (Random Access Memory) or a ROM (Read Only Memory), a fixed disk device such as a hard disk, a flexible disk, an optical disk, or the like can be used.

The storage unit 106 may, for example, include a manufacturing configuration master 106a as a product management master, a product master 106b as a responsible management master, order data 106c, manufacturing instruction data 106d, instruction issuance management data 106e, and a manufacturing instruction. The data 106f and the like are provided.

As shown in FIG. 2, the manufacturing configuration master 106a includes, for example, product identification data (product) for identifying a product, component identification data (unit) for identifying a component constituting the product, and the product. It includes the number of parts used (numerator of constituents / denominator of constituents), which is the quantity of the parts used in manufacturing one piece, and the like. For example, when "2/1" is described as "constituent number numerator / constituent number denominator", it means that the two parts are used in manufacturing the one product.

As shown in FIG. 2, the product master 106b includes, for example, the part identification data (product) and the person in charge identification data (related department) for identifying the department or person in charge of manufacturing or managing the part. including. The size of the particle size of the person in charge identification data is not particularly limited as long as it can identify the entity in charge of manufacturing or managing the part, and may have a large particle size such as "department" or "in charge". It may have a fine particle size such as "person".

As shown in FIGS. 3 and 4, the order data 106c is, for example, an order line number (line number) which is a line number in the same order identification data as the order identification data (order number) for identifying an order. ), The ordered product identification data (product) for identifying the ordered product, the ordered quantity (quantity) which is the quantity of the ordered product, and the like.

As shown in FIGS. 3 and 4, the manufacturing instruction data 106d is, for example, a manufacturing instruction identification data (manufacturing instruction number) for identifying a manufacturing instruction and a line number in the same manufacturing instruction identification data. The instruction line number (line number), the manufacturing instruction product identification data (product) for identifying the product to be manufactured, the manufacturing instruction quantity (quantity) which is the quantity of the product to be manufactured, and the order identification data. (Order number), the order line number (line number), and the like are included. The manufacturing instruction identification data (manufacturing instruction number) is a number assigned to each manufacturing instruction product identification data (product).

As shown in FIG. 4, the order data 106c and the manufacturing instruction data 106d may further include a cancellation flag indicating that a predetermined record in the data has been cancelled.

As shown in FIGS. 3 and 4, the instruction issuance management data 106e includes, for example, the order identification data (order number), the person in charge identification data (issuing department), and the date and time when the manufacturing instruction is first issued (first time). Issuance date and time), the date and time when the manufacturing instruction was most recently issued (latest issuance date and time), and the like.

The manufacturing instruction data 106f is data that is the basis for outputting the manufacturing instruction. Regarding the contents of the manufacturing instruction data 106f, the following [3. Specific example of processing] will be described in detail.

The control unit 102 is a CPU or the like that collectively controls the manufacturing instruction data generation device 100. The control unit 102 has an internal memory for storing a control program such as an OS, a program that defines various processing procedures, required data, and the like, and performs various information processing based on these stored programs. Execute.

Functionally, the control unit 102 acquires, for example, (1) part identification data associated with the ordered product identification data in the ordered data from the product management master, and further, the control unit 102 obtains the component identification data associated with the ordered product identification data from the responsible management master. The instruction issuance generation unit 102a as an instruction issuance generation means for acquiring the person in charge identification data associated with the acquired part identification data and generating the instruction issuance management data including the acquired person in charge identification data, and (2) the above. The determination unit 102b as a determination means for determining whether or not the designated responsible identification data exists or does not exist in the instruction issue issuance management data generated by the instruction instruction issuance generation means, and (3) the determination means. When it is determined that the product exists, the component acquisition unit 102c as a component acquisition means for acquiring the component identification data associated with the order product identification data in the order data and the quantity of used components from the product management master, and (4) the above. When the determination means determines that the existence is present, the charge acquisition unit 102d as the charge acquisition means for acquiring the charge identification data associated with the part identification data acquired by the component acquisition means from the charge management master, and (5). The order identification data in the order data, the part identification data acquired by the component acquisition means, and the value obtained by multiplying the used component quantity acquired by the component acquisition means by the order quantity in the order data. The manufacturing instruction generation unit 102e as a manufacturing instruction generating means for generating the manufacturing instruction data which is the original data when the manufacturing instruction is output, including the responsible identification data acquired by the responsible acquisition means. (6) A manufacturing instruction output unit 102f as a manufacturing instruction output means for outputting the manufacturing instruction based on the manufacturing instruction data generated by the manufacturing instruction generating means is provided.

The instruction issuance generation unit 102a acquires the parts associated with the product in the order data 106c from the manufacturing configuration master 106a including the product, the part (unit), and the number of parts used (molecular number of components / denominator of the number of components). Further, the related department associated with the acquired parts is acquired from the product master 106b including the parts and the related departments, and the instruction issuance management data 106e including the acquired related departments is generated.

The determination unit 102b determines whether or not the designated department exists in the instruction issuance management data 106e generated by the instruction issuance generation unit 102a (step S1 in FIG. 5).

If it is determined in step S1 that it does not exist (step S1: No in FIG. 5), the manufacturing instruction data 106f is not generated (step S2 in FIG. 5).

On the other hand, when it is determined in step S1 that it exists (step S1: Yes in FIG. 5), the parts acquisition unit 102c, the responsible acquisition unit 102d, and the manufacturing instruction generation unit 102e perform the following processing.

The parts acquisition unit 102c acquires the parts associated with the product and the quantity of parts used in the order data 106c from the manufacturing configuration master 106a including the product, the parts (unit), and the quantity of parts used (numerator of constituents / denominator of constituents). To do.

The responsible acquisition unit 102d acquires the related department associated with the parts acquired by the parts acquisition unit 102c from the product master 106b including the parts and the related departments.

The manufacturing instruction generation unit 102e has a value obtained by multiplying the order number in the order data 106c, the parts acquired by the parts acquisition unit 102c, and the quantity of used parts acquired by the parts acquisition unit 102c by the order quantity in the order data 106c. The manufacturing instruction data 106f including the related department acquired by the responsible acquisition unit 102d is generated.

The manufacturing instruction generation unit 102e may control whether to generate the new manufacturing instruction data 106f or the modified manufacturing instruction data 106f as follows.

That is, the determination unit 102b determines that the designated department exists in the instruction issuance management data 106e (step S1: Yes in FIG. 5), and links with the designated department in the instruction issuance management data 106e. When it is determined that the latest issue date and time to be attached does not exist (step S3: Yes in FIG. 5), and it is determined that the first issue date and time associated with the designated department does not exist in the instruction instruction issuance management data 106e (FIG. Step S5: Yes) of 5, the manufacturing instruction generation unit 102e generates manufacturing instruction data 106f including information that can identify that a new manufacturing instruction is issued (step S6 in FIG. 5).

On the other hand, the determination unit 102b determines that the designated department exists in the instruction issuance management data 106e (step S1: Yes in FIG. 5), and is designated in the instruction issuance management data 106e. When it is determined that the latest issue date and time associated with the department does not exist (step S3: Yes in FIG. 5), and it is determined that the first issue date and time associated with the specified department exists in the instruction issuance management data 106e. (Step S5: No in FIG. 5), the manufacturing instruction generation unit 102e generates manufacturing instruction data 106f including information that can be identified to issue the manufacturing instruction whose contents have been changed (step S7 in FIG. 5). ).

If the determination unit 102b determines that the latest issuance date and time associated with the designated department exists in the instruction issuance management data 106e (step S3: No in FIG. 5), the manufacturing instruction data 106f is generated. Not done (step S4 in FIG. 5). However, even in this case (step S3 in FIG. 5: No), if "reissue" is specified, the manufacturing instruction data 106f can be generated.

The manufacturing instruction output unit 102f outputs a manufacturing instruction based on the manufacturing instruction data 106f generated by the manufacturing instruction generating unit 102e.

[2. Background and outline of the present invention]
This section describes the background and outline of the present invention.

[2-1. Background of the present invention]
In the past, each unit (each part) was also manufactured and assembled collectively by the manufacturing department, but in recent years, due to the complicated product configuration and the increase in orders and production volume. As a result, the manufacturing department is often subdivided and a division of labor system is adopted for each unit (each part).

For this reason, it became necessary to issue manufacturing instructions for each manufacturing department, but in the past there was no function to realize this, so one manufacturing instruction was copied and distributed to each department. Specifically, after inputting an order from sales, after performing manufacturing instruction confirmation processing, only one manufacturing instruction is issued, so the management department checks the related department and copies the required number of sheets, and the related manufacturing department (For example, it is processed about twice a day at a fixed time). The manufacturing department then waited for instructions from the management department to check manufacturing and unit inventory information.

[2-2. Outline of the present invention]
Therefore, in order to solve the background explained in [2-1], in the present embodiment, for example, a child part (unit) of the manufacturing configuration master that manages product configuration information is provided with a "related department" to receive an order. For products for which manufacturing instructions have been created, only when the units to be manufactured by the own department are included, the corresponding manufacturing instructions are issued, and for manufacturing instructions that do not include the units manufactured by the own department. By excluding it from the issuance target, we succeeded in reducing the workload that had been copied and distributed by the management department to related departments. In other words, in the present embodiment, for example, after inputting an order from sales, each manufacturing department performs a manufacturing instruction confirmation process at an arbitrary timing, and each manufacturing department issues a manufacturing instruction to at least its own department. A manufacturing instruction is issued containing relevant manufacturing instruction information. As a result, each manufacturing department can issue the necessary instructions to its own department at any time without waiting for the arrival of the instructions, so that the latest information can always be grasped. Further, for example, since the issuance of instructions is mainly carried out by the manufacturing department, the work in the management department regarding the issuance of instructions is no longer necessary.

Further, in the present embodiment, for example, by managing whether the instruction sheet has been issued or not issued for each department, the instruction sheet already issued in each department is excluded from printing, and is always necessary in the own department. It is possible to print only the instructions. As a premise, manufacturing instruction data for the unit is not created in the system, and each department is expected to manufacture it.

[3. Specific example of processing]
In this item, a specific example of the process according to the present embodiment will be described. In this item, first, when the order data 106c is newly registered, the case where the assembly section generates a new manufacturing instruction will be described, and then, when the order data 106c is modified and registered, the assembly section changes it. The case where the manufacturing instruction sheet of the above is generated and a new manufacturing instruction sheet is generated in the XX section will be described. As a premise of the description in this item, it is assumed that the manufacturing configuration master 106a and the product master 106b are set with the contents shown in FIG.

[3-1. When newly registering order data 106c]
(1) Order input First, when an order is received from a customer, an order is input by a clerical staff or the like, and the order data 106c shown in FIG. 3 is generated. The order data 106c in FIG. 3 is order data when 5 items A are ordered, 10 items B are ordered, and 15 items C are ordered.

(2) Manufacturing instruction confirmation process Subsequently, the person in charge of the manufacturing department performs the manufacturing instruction confirmation process, and the production instruction data 106d of FIG. 3 is generated based on the generated order data 106c of FIG. To.

Further, by performing the manufacturing instruction confirmation process, the instruction instruction issuance management data 106e1 of FIG. 3 is generated as follows based on the generated order data 106c of FIG.

That is, the instruction issuance generation unit 102a acquires the unit aa and the unit ab from the manufacturing configuration master 106a of FIG. 2 as a unit for associating the product A in the order data 106c of FIG. 3, and the order data 106c of FIG. The unit ba is acquired as a unit to which the product B in is linked, and the unit cc is acquired as a unit to which the product C in the order data 106c of FIG. 3 is linked.

Next, the instruction instruction issuance generation unit 102a acquires the assembly section from the product master 106a of FIG. 2 as a related department associated with the unit aa acquired in the previous paragraph or the unit ab, and the unit ba acquired in the previous paragraph. Acquire the XX section as the related department to be linked, and acquire the XX section as the related department to be linked to the unit cc acquired in the previous paragraph.

Then, as shown in FIG. 3, the instruction issuance generation unit 102a generates the instruction issuance management data 106e1 including the assembly section, the XX section, and the XX section, which are the related departments acquired in the previous paragraph. Since the instruction sheet is issued in units of the order number, the key in the instruction sheet issuance management data 106e is the order number.

(3) Issuance of Manufacturing Instructions Finally, the flow in which the manufacturing instructions are issued by the person in charge of the manufacturing department will be described with reference to the flowchart of FIG. In this item (3), in order for the assembly section to issue the manufacturing instruction, the "assembly section" is designated as the department on the instruction issuance screen (not shown) (start of FIG. 5).

First, referring to the instruction issuance management data 106e1 of FIG. 3 generated by the instruction issuance generation unit 102a, the designated department "assembly section" exists. Therefore, the determination unit 102b determines that the data of its own department exists in the instruction instruction issuance management data 106e1 (step S1: Yes in FIG. 5).

Subsequently, when the determination unit 102b determines that the component acquisition unit 102c exists, the component acquisition unit 102c has the unit and the number of units associated with the product A in the order data 106c of FIG. 3 from the manufacturing configuration master 106a of FIG. 2, respectively. Acquire aa and 1/1. In the same manner, the component acquisition unit 102c acquires the unit ab and 1/1 as the unit and the number of units associated with the product A, respectively, and the unit ba and the number of units associated with the product B, respectively. 2/1 is acquired, and the unit cc and 1/1 are acquired as the unit and the number of units associated with the product C, respectively.

Subsequently, when the determination unit 102b determines that the product exists, the charge acquisition unit 102d acquires the assembly section from the product master 106b in FIG. 2 as a unit aa acquired by the parts acquisition unit 102c or a related department associated with the unit ab. Then, the XX section is acquired as a related department associated with the unit ba acquired by the parts acquisition unit 102c, and the XX section is acquired as a related department associated with the unit cc acquired by the parts acquisition unit 102c.

Returning to FIG. 5, referring to the instruction issuance management data 106e1 of FIG. 3 generated by the instruction issuance generation unit 102a, the “latest issuance date and time” is blank for the assembly section (step S3: Yes in FIG. 5). Moreover, the "first issue date and time" is also blank (step S5: Yes in FIG. 5). In this case, the manufacturing instruction generation unit 102e outputs the manufacturing instruction data 106f including information that can identify that a new manufacturing instruction is issued (= the character "change" is not included) with respect to the assembly section. (Step S6 in FIG. 5).

That is, the manufacturing instruction generation unit 102e
(A) The header information of the manufacturing instruction includes the order number "1001" in the order data 106c of FIG.
(B) As header information related to the product A, the product name "A" in the order data 106c, the order quantity "5" of the product A in the order data 106c, the manufacturing instruction number "S2001" corresponding to the product A, and the like. Including
(C) As detailed information (part information) regarding the product A, the unit "aa" acquired by the parts acquisition unit 102c, the "assembly section" acquired about the unit aa by the responsible acquisition unit 102d, and the unit aa by the parts acquisition unit 102c. "5", which is the value obtained by multiplying the acquired number of units 1/1 (= 1) by the order quantity 5 of the product A in the order data 106c, and the unit "ab" acquired by the parts acquisition unit 102c. The value obtained by multiplying the "assembly section" acquired for the unit ab in the part 102d and the number of units 1/1 (= 1) acquired for the unit ab in the parts acquisition unit 102c by the order quantity 5 of the product A in the order data 106c. Including a certain "5"
(D) As header information related to the product B, the product name "B" in the order data 106c, the order quantity "10" of the product B in the order data 106c, the manufacturing instruction number "S2002" corresponding to the product B, and the like. Including
(E) As detailed information (part information) regarding the product B, the unit "ba" acquired by the parts acquisition unit 102c, the "XX section" acquired about the unit ba by the responsible acquisition unit 102d, and the unit by the parts acquisition unit 102c. Includes "20", which is the value obtained by multiplying the number of units acquired for ba by 2/1 (= 2) by the order quantity 10 of the product B in the order data 106c.
(F) As header information related to the product C, the product name "C" in the order data 106c, the order quantity "15" of the product C in the order data 106c, the manufacturing instruction number "S2003" corresponding to the product C, and the like. Including
(G) As detailed information (part information) regarding the product C, the unit "cc" acquired by the parts acquisition unit 102c, the "XX section" acquired about the unit cc by the responsible acquisition unit 102d, and the unit by the parts acquisition unit 102c. Includes "15", which is a value obtained by multiplying 1/1 (= 1) of the number of units acquired for cc by the order quantity 15 of the product C in the order data 106c.
The manufacturing instruction data 106f is generated. The manufacturing instruction output by the manufacturing instruction output unit 102f based on the generated manufacturing instruction data 106f is the manufacturing instruction X in FIG. As shown in FIG. 3, the manufacturing instruction X output in this way is necessary for the product for which the order has been received, in addition to the printing of the units (unit aa and unit ab) manufactured by the own department (assembly section). Units manufactured by other departments (unit ba and unit cc) may also be printed. As a result, for example, information can be shared between departments.

Finally, when the output of the manufacturing instruction is completed, the initial issuance date and time and the latest issuance date and time are updated as shown in the instruction issuance management data 106e2 of FIG. Since the output described in this item (3) is the first output for the assembly section, the same date and time is updated to the first issue date and time and the latest issue date and time.

[3-2. When modifying and registering order data 106c]
(1) Order input First, in the order data 106c generated in (1) of [3-1], the record in the first line (the record indicating that five products A have been ordered) is canceled, and the product A is input. It will be revised to a record indicating that 8 pieces have been ordered. At the timing when the order data 106c is modified and updated, the latest issuance date and time is cleared to "-" as shown in the instruction issuance management data 106e3 of FIG.

(2) Manufacturing instruction confirmation process Subsequently, the manufacturing instruction confirmation process is performed to correct the manufacturing instruction data 106d of FIG. 4 based on the corrected order data 106c of FIG. In the manufacturing instruction data 106d of FIG. 4, the manufacturing instruction record (record of the manufacturing instruction number S2001) corresponding to the order canceled in (1) is flagged as "cancelled". On the other hand, a record of manufacturing instruction number S2004 is newly added as a record of manufacturing instruction corresponding to the order modified and registered in (1).

(3) Issuance of Manufacturing Instructions Finally, the flow in which the manufacturing instructions are issued by the person in charge of the manufacturing department will be described with reference to the flowchart of FIG. In this item (3), the items will be explained separately for the case where the assembly section issues the manufacturing instruction and the case where the XX section issues the manufacturing instruction.

(3-1) When the assembly section issues manufacturing instructions In order for the assembly section to issue manufacturing instructions, the "assembly section" shall be designated as the department on the instruction issuance screen (not shown). (Start of FIG. 5).

First, referring to the updated instruction issuance management data 106e3 of FIG. 4, the designated department "assembly section" exists. Therefore, the determination unit 102b determines that the data of its own department exists in the instruction instruction issuance management data 106e3 (step S1: Yes in FIG. 5).

Subsequently, when the determination unit 102b determines that it exists, the component acquisition unit 102c acquires the unit and the number of units, and the charge acquisition unit 102d acquires the related department, but the acquisition method is (3) of [3-1]. ), So detailed description will be omitted.

Returning to FIG. 5, referring to the updated instruction issuance management data 106e3 of FIG. 4, the "latest issuance date and time" is blank for the assembly section (step S3: Yes in FIG. 5), but the "first issuance date and time". Is not blank (step S5: No in FIG. 5). In this case, the manufacturing instruction generation unit 102e generates manufacturing instruction data 106f (= including the characters "change") including information that can identify that the manufacturing instruction for change is issued with respect to the assembly section. Step S7 in FIG. The manufacturing instruction output by the manufacturing instruction output unit 102f based on the generated manufacturing instruction data 106f is the manufacturing instruction Y in FIG. As shown in the upper right of the manufacturing instruction sheet Y in FIG. 4, the characters "change" are printed on the manufacturing instruction sheet, so that the manufacturing instruction sheet corresponds to the changed order information. It becomes clear.

Finally, when the output of the manufacturing instruction is completed, the latest issuance date and time is updated as shown in the instruction issuance management data 106e4 of FIG. Since the output described in this item (3-1) is the second output for the assembly section, the latest issue date and time is updated to a date and time different from the first issue date and time.

(3-2) When issuing a manufacturing instruction in the XX section In order to issue a manufacturing instruction in the XX section, "XX section" is designated as the department on the instruction issuance screen (not shown). (Start of FIG. 5).

First, referring to the updated instruction issuance management data 106e3 of FIG. 4, the designated department “XX section” exists. Therefore, the determination unit 102b determines that the data of its own department exists in the instruction instruction issuance management data 106e3 (step S1: Yes in FIG. 5).

Subsequently, when the determination unit 102b determines that it exists, the component acquisition unit 102c acquires the unit and the number of units, and the charge acquisition unit 102d acquires the related department, but the acquisition method is (3) of [3-1]. ), So detailed description will be omitted.

Returning to FIG. 5, referring to the updated instruction issuance management data 106e3 in FIG. 4, the "latest issuance date and time" is blank for the XX section (step S3: Yes in FIG. 5), and the "first issue" The date and time ”is also blank (step S5: Yes in FIG. 5). In this case, the manufacturing instruction generation unit 102e generates manufacturing instruction data 106f that includes information that can identify that a new manufacturing instruction is issued (= does not include the characters "change") for the XX section. (Step S6 in FIG. 5). The manufacturing instruction output by the manufacturing instruction output unit 102f based on the generated manufacturing instruction data 106f is the manufacturing instruction Z in FIG.

Finally, when the output of the manufacturing instruction is completed, the initial issuance date and time and the latest issuance date and time are updated as shown in the instruction issuance management data 106e5 of FIG. Since the output explained in this item (3-2) is the first output for Section XX, the same date and time will be updated to the first issue date and time and the latest issue date and time.

[3-3. Summary]
As described above in the present items [3-1] and [3-2], according to the manufacturing instruction data generation device 100 according to the present embodiment, each department is, for example, on the instruction instruction issuing screen. By designating the department, it is possible to generate the manufacturing instruction data 106f including at least the manufacturing instruction information about the own department at an arbitrary timing.

[4. Summary of this embodiment]
As described above, according to the manufacturing instruction data generation device 100 according to the present embodiment, it is possible to generate manufacturing instruction data including at least manufacturing instruction information about one's own person at an arbitrary timing of each person in charge. To do.

[5. Other embodiments]
In addition to the above-described embodiments, the present invention may be implemented in various different embodiments within the scope of the technical ideas described in the claims.

For example, of each of the processes described in the embodiments, all or part of the processes described as being performed automatically may be performed manually, or all the processes described as being performed manually. Alternatively, a part can be automatically performed by a known method.

In addition, the processing procedure, control procedure, specific name, information including parameters such as registration data and search conditions of each processing, screen examples, and database configuration shown in the present specification and drawings are not specified unless otherwise specified. Can be changed arbitrarily.

Further, with respect to the manufacturing instruction data generation device 100, each component shown in the drawing is a functional concept and does not necessarily have to be physically configured as shown in the drawing.

For example, with respect to the processing functions included in the manufacturing instruction data generation device 100, particularly each processing function performed by the control unit, all or any part thereof is realized by the CPU and a program interpreted and executed by the CPU. It may be realized as hardware by wired logic. The program is recorded on a non-temporary computer-readable recording medium including a programmed instruction for causing the information processing apparatus to execute the processing described in the present embodiment, and a manufacturing instruction sheet is used as necessary. It is read mechanically by the data generator 100. That is, in a storage unit such as a ROM or an HDD (Hard Disk Drive), a computer program for giving a command to the CPU in cooperation with the OS and performing various processes is recorded. This computer program is executed by being loaded into RAM, and constitutes a control unit in cooperation with the CPU.

Further, this computer program may be stored in an application program server connected to the manufacturing instruction data generator 100 via an arbitrary network, and all or a part thereof should be downloaded as needed. Is also possible.

Further, the program for executing the process described in the present embodiment may be stored in a non-temporary computer-readable recording medium, or may be configured as a program product. Here, the "recording medium" includes a memory card, a USB (Universal Serial Bus) memory, an SD (Secure Digital) card, a flexible disk, a magneto-optical disk, a ROM, an EPROM (Erasable Programmable Read Only Memory), and an EEPROM (registration). Trademarks) (Electrically Erasable and Programmable Read Only Memory), CD-ROM (Compact Disk Read Only Memory), MO (Magnet-Optical Disk), MO (Magnet-Optical Disk), DVD (Digital), DVD (Digital) It shall include any "portable physical medium".

Further, the "program" is a data processing method described in an arbitrary language or description method, regardless of the format such as source code or binary code. The "program" is not necessarily limited to a single program, but is distributed as a plurality of modules or libraries, or cooperates with a separate program represented by the OS to achieve its function. Including things. A well-known configuration and procedure can be used for a specific configuration and reading procedure for reading the recording medium in each device shown in the embodiment, an installation procedure after reading, and the like.

Various databases and the like stored in the storage unit are memory devices such as RAM and ROM, fixed disk devices such as hard disks, flexible disks, and storage means such as optical disks, and are used for various processes and website provision. Stores programs, tables, databases, files for web pages, etc.

Further, the manufacturing instruction data generation device 100 may be configured as an information processing device such as a known personal computer or workstation, or may be configured as the information processing device to which an arbitrary peripheral device is connected. .. Further, the manufacturing instruction data generation device 100 may be realized by mounting software (including a program or data) that realizes the processing described in the present embodiment on the device.

Further, the specific form of the distribution / integration of the device is not limited to the one shown in the drawing, and all or a part thereof may be functionally or physically in an arbitrary unit according to various additions or functional loads. It can be distributed and integrated. That is, the above-described embodiments may be arbitrarily combined and implemented, or the embodiments may be selectively implemented.

The present invention is useful in, for example, the manufacturing industry, and is extremely useful, especially in the industry in which machines and the like are assembled and manufactured.

100 Manufacturing instruction data generator 102 Control unit
102a Instruction issuance generator
102b Judgment unit
102c Parts acquisition section
102d Acquisition Department
102e Manufacturing instruction generator
102f Manufacturing instruction output unit 104 Communication interface unit 106 Storage unit
106a Manufacturing configuration master
106b Product master
106c Order data
106d Manufacturing instruction data
106e Instruction issuance management data
106f Manufacturing instruction data 108 Input / output interface 112 Input device 114 Output device 200 Server 300 Network

Claims (5)

A manufacturing instruction data generator including a control unit and a storage unit.
In the storage unit
A product management master that includes product identification data for identifying a product, component identification data for identifying the parts that make up the product, and the quantity of parts used, which is the quantity of the parts used in manufacturing one product. When,
A responsible management master that includes part identification data and responsible identification data for identifying the department or person in charge of manufacturing or managing the part.
Order identification data for identifying the order, order product identification data for identifying the ordered product, order data including the order quantity which is the quantity of the ordered product, and order data.
Is stored,
The control unit
From the product management master, the part identification data associated with the ordered product identification data in the order data is acquired, and further, the responsible identification data associated with the acquired part identification data is acquired from the responsible management master. Instruction issuance generation means for generating instruction issuance management data including the acquired person in charge identification data, and
A determination means for determining whether or not the designated person in charge identification data exists or does not exist in the instruction issuance management data generated by the instruction issuance generation means.
When the determination means determines that the product exists, the component acquisition means for acquiring the component identification data associated with the order product identification data in the order data and the quantity of parts used from the product management master.
When the determination means determines that the existence is present, the charge acquisition means for acquiring the charge identification data associated with the part identification data acquired by the component acquisition means from the charge management master, and the charge acquisition means.
The order identification data in the order data, the part identification data acquired by the parts acquisition means, and the value obtained by multiplying the used parts quantity acquired by the parts acquisition means by the order quantity in the order data. A manufacturing instruction generating means for generating manufacturing instruction data, which is data that is a source data when outputting a manufacturing instruction, including the responsible identification data acquired by the responsible acquisition means.
To prepare
A manufacturing instruction data generator characterized by. The manufacturing instruction generation means
The determination means determines that the designated responsible identification data exists in the instruction issuance management data, and the manufacturing instruction associated with the designated responsible identification data in the instruction issuance management data is the most. When it is determined that the newly issued date and time does not exist, and it is determined that the date and time when the manufacturing instruction associated with the designated person in charge identification data does not exist in the instruction issuance management data does not exist, a new date and time is newly issued. Generate the manufacturing instruction data including information that can identify that the manufacturing instruction is issued, and generate the manufacturing instruction data.
The determination means determines that the designated responsible identification data exists in the instruction issuance management data, and the manufacturing instruction associated with the designated responsible identification data in the instruction issuance management data is the most. If it is determined that the newly issued date and time does not exist, and it is determined that the date and time when the manufacturing instruction that is associated with the specified person in charge identification data exists in the instruction issuance management data for the first time, the content is changed. To generate the manufacturing instruction data including information that can identify that the manufacturing instruction is issued.
The manufacturing instruction data generation device according to claim 1. The control unit
Further provided with a manufacturing instruction output means for outputting the manufacturing instruction based on the manufacturing instruction data generated by the manufacturing instruction generating means.
The manufacturing instruction data generation device according to claim 1 or 2. It is a manufacturing instruction data generation method executed by an information processing device including a control unit and a storage unit.
In the storage unit
A product management master that includes product identification data for identifying a product, component identification data for identifying the parts that make up the product, and the quantity of parts used, which is the quantity of the parts used in manufacturing one product. When,
A responsible management master that includes part identification data and responsible identification data for identifying the department or person in charge of manufacturing or managing the part.
Order identification data for identifying the order, order product identification data for identifying the ordered product, order data including the order quantity which is the quantity of the ordered product, and order data.
Is stored,
Executed by the control unit,
From the product management master, the part identification data associated with the ordered product identification data in the order data is acquired, and further, the responsible identification data associated with the acquired part identification data is acquired from the responsible management master. Instruction issuance generation step to generate instruction issuance management data including the acquired person in charge identification data, and
A determination step for determining whether or not the designated person in charge identification data exists or does not exist in the instruction issuance management data generated in the instruction issuance generation step.
When it is determined in the determination step that the product exists, the component acquisition step of acquiring the component identification data associated with the ordered product identification data in the order data and the quantity of used components from the product management master.
When it is determined in the determination step that the existence is present, the charge acquisition step of acquiring the charge identification data associated with the part identification data acquired in the component acquisition step from the charge management master, and the charge acquisition step.
The order identification data in the order data, the part identification data acquired in the component acquisition step, and the value obtained by multiplying the used component quantity acquired in the component acquisition step by the order quantity in the order data. A manufacturing instruction generation step for generating manufacturing instruction data, which is data that is a source data when outputting a manufacturing instruction, including the responsible identification data acquired in the responsible acquisition step.
Including,
A method for generating manufacturing instruction data, which comprises. A manufacturing instruction data generation program to be executed by an information processing device including a control unit and a storage unit.
In the storage unit
A product management master that includes product identification data for identifying a product, component identification data for identifying the parts that make up the product, and the quantity of parts used, which is the quantity of the parts used in manufacturing one product. When,
A responsible management master that includes part identification data and responsible identification data for identifying the department or person in charge of manufacturing or managing the part.
Order identification data for identifying the order, order product identification data for identifying the ordered product, order data including the order quantity which is the quantity of the ordered product, and order data.
Is stored,
To make the control unit execute
From the product management master, the part identification data associated with the ordered product identification data in the order data is acquired, and further, the responsible identification data associated with the acquired part identification data is acquired from the responsible management master. Instruction issuance generation step to generate instruction issuance management data including the acquired person in charge identification data, and
A determination step for determining whether or not the designated person in charge identification data exists or does not exist in the instruction issuance management data generated in the instruction issuance generation step.
When it is determined in the determination step that the product exists, the component acquisition step of acquiring the component identification data associated with the ordered product identification data in the order data and the quantity of used components from the product management master.
When it is determined in the determination step that the existence is present, the charge acquisition step of acquiring the charge identification data associated with the part identification data acquired in the component acquisition step from the charge management master, and the charge acquisition step.
The order identification data in the order data, the part identification data acquired in the component acquisition step, and the value obtained by multiplying the used component quantity acquired in the component acquisition step by the order quantity in the order data. A manufacturing instruction generation step for generating manufacturing instruction data, which is data that is a source data when outputting a manufacturing instruction, including the responsible identification data acquired in the responsible acquisition step.
Including,
A manufacturing instruction data generation program characterized by.

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