JP7461865B2 - Inspection management device, inspection management method, and inspection management program - Google Patents

Description

The present invention relates to an inspection management device, an inspection management method, and an inspection management program.

For example, chemical manufacturers may have to inspect different items for manufactured products depending on the destination, which is the combination of the customer and the delivery destination. In such cases, they may be required to carry out additional inspections for special inspection items and to record the details of these inspections in the inspection report. For example, Patent Document 1 shows an example of product inspection.

JP 2005-258753 A

However, the above-mentioned Patent Document 1 does not state anything about improving the efficiency of inspection work for products destined for specific combinations of customers and delivery destinations.

The present invention has been made in consideration of the above, and aims to provide an inspection management device, an inspection management method, and an inspection management program that can streamline the inspection work for products destined for specific destinations, which are combinations of customers and delivery destinations.

In order to solve the above-mentioned problems and achieve the object, the present invention provides an inspection management device having a control unit and a storage unit, in which a first master in which an inspection pattern is registered for each destination, which is a combination of a customer and a delivery destination, and a second master in which a plurality of inspection items are registered for each inspection pattern are stored in the storage unit, and the control unit is characterized by having an inspection result input means for inputting inspection results data including the inspection results of predetermined inspection items for each produced product, an order input means for inputting order information including the destination and the product, and an additional inspection determination means for acquiring an inspection pattern from the first master using the destination and product of the order information as a key, acquiring inspection items from the second master using the acquired inspection pattern as a key, comparing the inspection items of the acquired second master with the inspection items of the inspection results data for the product, and determining that an additional inspection is required if there is an inspection item among the inspection items of the acquired second master that does not exist in the inspection items of the inspection results data.

According to one aspect of the present invention, the additional examination determination means may create examination request data for the additional examination when it determines that an additional examination is necessary.

According to one aspect of the present invention, the second master may also store specifications and notes for each inspection item.

According to one aspect of the present invention, the inspection request data may also include specifications and precautions for additional inspection items.

According to one aspect of the present invention, the inspection request data may include a scheduled inspection date and an inspection delivery date.

In order to solve the above-mentioned problems and achieve the object, the present invention provides an inspection management method executed by an information processing device having a control unit and a storage unit, the storage unit including: a first master in which an inspection pattern is registered for each destination, which is a combination of a customer and a delivery destination, and for each product;
and a second master in which a plurality of inspection items are registered for each inspection pattern, and the system includes an inspection results input process executed by the control unit, for inputting inspection results data including inspection results of predetermined inspection items for each produced product, an order input process for inputting order information including a destination and a product, and an additional inspection determination process for acquiring an inspection pattern from the first master using the destination and product of the order information as keys, acquiring inspection items from the second master using the acquired inspection pattern as a key, comparing the inspection items in the acquired second master with inspection items in the inspection results data for the product, and determining that an additional inspection is necessary if any of the inspection items in the acquired second master does not exist in the inspection items in the inspection results data.

In order to solve the above-mentioned problems and achieve the object, the present invention provides an inspection management program to be executed by an information processing device having a control unit and a storage unit, the storage unit including:
The inspection management program stores a first master in which an inspection pattern is registered for each destination, which is a combination of a customer and a delivery destination, and a second master in which a plurality of inspection items are registered for each inspection pattern, and the control unit causes a computer to execute the following steps: an inspection performance input process for inputting inspection performance data including inspection results of predetermined inspection items for each produced product; an order input process for inputting order information including the destination and the product; and an additional inspection determination process for acquiring an inspection pattern from the first master using the destination and product of the order information as keys, acquiring inspection items from the second master using the acquired inspection pattern as a key, comparing the inspection items in the acquired second master with inspection items in the inspection performance data for the product, and determining that additional inspection is necessary if there is an inspection item among the inspection items in the acquired second master that does not exist in the inspection items in the inspection performance data.

The present invention has the effect of making it possible to improve the efficiency of inspection work for products destined for specific combinations of customers and delivery destinations.

FIG. 1 is a block diagram showing an example of the configuration of an inspection management device according to the present embodiment. FIG. 2 is a flowchart illustrating an example of an overall processing procedure of the control unit of the inspection management apparatus according to the present embodiment. FIG. 3 is a diagram for explaining a specific example of processing by the control unit of the inspection management apparatus according to the present embodiment. FIG. 4 is a diagram for explaining a specific example of processing by the control unit of the inspection management apparatus according to the present embodiment. FIG. 5 is a diagram for explaining a specific example of processing by the control unit of the inspection management apparatus according to the present embodiment. FIG. 6 is a diagram for explaining a specific example of the process of the control unit of the inspection management apparatus according to the present embodiment. FIG. 7 is a diagram for explaining a specific example of processing by the control unit of the inspection management apparatus according to the present embodiment.

Below, an embodiment of the inspection management device, inspection management method, and inspection management program according to the present invention will be described in detail with reference to the drawings. Note that the present invention is not limited to the embodiment.

[1. Overview]
For example, chemical manufacturers may have to carry out different inspection items for manufactured products depending on the destination, which is the combination of the customer and the delivery destination. They may be required to carry out additional inspections for special inspection items and to record the details of the inspection in the inspection report.

Specifically, for example, even if the customer is the same, the place where the goods are delivered (delivery destination) may be different, and different inspection items may be set for each delivery destination. For example, a customer may be "XX Trading Co." and its delivery destinations may be "△△ Sales Office," "□□ Branch," "XX Warehouse," etc., and different inspection items may be set for each delivery destination.

The typical flow of conventional inspection work is as follows: In the manufacturing (planned production) process, (1) manufacturing is carried out based on a production plan. (2) The finished products are inspected. Here, inspections are carried out using inspection items determined within the company. (3) Inventory is stored in a manufacturing warehouse.

In the shipping process, (1) orders are received from business partners. (2) Additional inspections are conducted on the products, if necessary, for each destination. Inspections are carried out according to the inspection items determined for each destination. (3) After inspection, the products are shipped (with an inspection report enclosed). At this stage, inspection information for each destination was managed on paper (outside the system).

However, there was an issue that it took time to determine whether additional inspections were necessary for each destination and to understand the details of the inspections. Also, some inspection items took a long time, which meant that shipments could not be made by the customer's desired delivery date. In addition, because this was all done manually, there was a high possibility of operational errors, such as missed inspections.

In this embodiment, in order to improve the efficiency of the inspection work for each destination, the inspection contents are stored in master for each destination and each product, and when an order is received and inventory is allocated, (1)
The system automatically performs the following two processes: (1) determining whether additional inspection is necessary for each destination; and (2) requesting an inspection if additional inspection is necessary (also making it possible to identify points of caution and comments that will help users notice special inspections).

According to this embodiment, the work efficiency for inspection work for each destination is improved, and it is possible to realize shipment within the customer's desired delivery date. In addition, by reducing manual work, it is possible to reduce the possibility of mistakes such as missed inspections. Furthermore, it is possible to issue instructions for appropriate additional inspections without omissions, making it possible to prevent complaints after shipment due to errors in inspection instructions.

The present invention is widely applicable to the field of inspecting manufactured goods, for example, in various industries such as chemicals (including intermediate and finished products), food, cosmetics, and pharmaceuticals.

The specific configuration and operation are explained below.

2. Configuration
The configuration of an inspection management device 100 according to this embodiment will be described with reference to Fig. 1. Fig. 1 is a block diagram showing an example of the configuration of the inspection management device 100. In the following, a case where a chemical product is targeted as an example of a commodity to be inspected will be described as an example.

The inspection management device 100 is a commercially available desktop personal computer. Note that the inspection management device 100 is not limited to a stationary information processing device such as a desktop personal computer, but may be a portable information processing device such as a commercially available notebook personal computer, PDA (Personal Digital Assistant), smartphone, or tablet personal computer.

As shown in FIG. 1, the inspection management device 100 includes a control unit 102, a communication interface unit 104, a memory unit 106, and an input/output interface unit 108. Each unit included in the inspection management device 100 is connected to each other so as to be able to communicate with each other via any communication path.

The communication interface unit 104 communicatively connects the inspection management device 100 to the network 300 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 other devices via the communication line. Here, the network 300 has a function of connecting the inspection management device 100 and the server 200 so that they can communicate with each other, and is, for example, the Internet or a LAN (Local Area Network). Note that the data stored in the memory unit 106 described later may be stored in the server 200.

The input/output interface unit 108 is connected to an input device 112 and an output device 114. The output device 114 may be a monitor (including a home television), a speaker, or a printer. The input device 112 may be a keyboard, a mouse, a microphone, or a monitor that cooperates with a mouse to realize a pointing device function. In the following, the output device 114 may be referred to as the monitor 114, and the input device 112 may be referred to as the keyboard 112 or the mouse 112. In addition, "output" includes displaying on the monitor of the output device 114 and printing on the printer of the output device 114. In addition, a user's operation on the information displayed on the monitor 114 using the input device 112 or the like may be referred to as a "user operation via a UI."

The storage unit 106 stores various databases, tables, files, and the like. The storage unit 106 records computer programs that work in cooperation with the OS (Operating System) to give instructions to the CPU (Central Processing Unit) to perform various processes. The storage unit 106 can be, 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.

The memory unit 106 includes a customer delivery product-specific inspection pattern master 106a, an inspection pattern master 106b, and a data file 106c.

The customer delivery product inspection pattern master (first master) 106a is a master for registering inspection patterns for each destination, which is a combination of customer and delivery destination, and for each product. The customer delivery product inspection pattern master (first master) 106a can be composed of a table or the like that associates and registers data such as the customer, delivery destination, product, inspection pattern, points to note during inspection, additional inspection period, and shipping lead time, which is the period from inspection to shipping (see Figure 4).

The inspection pattern master (second master) 106b is a master for registering, for each inspection pattern, multiple inspection items that make up that inspection pattern. The inspection pattern master (second master) 106b can be configured as a table or the like that associates and registers data such as serial numbers, inspection item codes, inspection item names, specification standards (standard values that define the pass line for the inspection), and notes (notes for additional inspections, etc.) for each inspection pattern (see FIG. 4).

Data file 106c is a file for storing various data such as inspection performance data, order information, inspection request data, etc.

The inspection performance data may include serial numbers, inspection item codes, inspection item names, and inspection result data for each produced product and its lot number (see Figure 5).

The order information may include data such as order number, customer, delivery destination, shipping date, product, and lot number (see Figure 5).

Inspection request data is data for requesting additional inspections, and may be composed of header information and detailed information. The header information may include data on the inspection instruction number, order number, product, scheduled inspection date (= shipping date - (additional inspection implementation period + shipping lead time)), and inspection delivery date (= shipping date - shipping lead time). The detailed information may include data on the inspection serial number, inspection item code for additional inspection, inspection item name for additional inspection, specification standards (standard values), and notes (notes for additional inspection) (see Figure 6).

The control unit 102 is a CPU or the like that controls the inspection management device 100. The control unit 102 has an internal memory for storing control programs such as an OS, programs that define various processing procedures, required data, etc., and executes various information processing based on these stored programs. In terms of functional concept, the control unit 102 includes an inspection record input unit 102a, an order input unit 102b, an additional inspection judgment unit 102c, a master maintenance unit 102d, and a screen display control unit 102e.

The inspection results input unit 102a inputs inspection results data including the inspection results of each inspection item determined within the company for each planned production product in response to, for example, the operator's operations on the input screen displayed on the monitor 114, and registers the data in the data file 106c.

The order input unit 102b inputs order information in response to, for example, an operator's operation on an input screen (not shown) displayed on the monitor 114, and registers the information in the data file 106c.

For example, when allocating inventory for an order, the additional inspection determination unit 102c acquires an inspection pattern from the customer delivery product-specific inspection pattern master 106a using the destination and product of the order information as a key, acquires inspection items from the inspection pattern master 106b using the acquired inspection pattern as a key, compares the inspection items in the acquired inspection pattern master 106b with the inspection items in the inspection performance data for the product, and determines that additional inspection is required if there is an additional inspection item among the inspection items in the acquired inspection pattern master 106b that is not present in the inspection items in the inspection performance data. Furthermore, if the additional inspection determination unit 102c determines that additional inspection is required, it creates inspection request data for the additional inspection item and registers it in the data file 106c.

The master maintenance section 102d is used to perform editing such as inputting, adding, and changing data to the customer delivery destination product-specific inspection pattern master 106a and the inspection pattern master 106b in response to the operator's operation on a master maintenance screen (not shown) displayed on the monitor 112, for example.

The screen display control unit 102e controls, for example, the display of various screens (e.g., input screens, master maintenance screens, etc.) displayed on the monitor 112 and the acceptance of input therefor.

3. Specific Examples
A specific example of the processing of the inspection management device 100 according to the present embodiment will be described with reference to Fig. 1 to Fig. 7. Fig. 2 is a diagram illustrating a flow for explaining the overall processing flow of the control unit 102 of the inspection management device 100 according to the present embodiment. Figs. 3 to 7 are diagrams for explaining a specific example of the processing of the control unit of the inspection management device 100 according to the present embodiment.

The overall processing flow of the control unit 102 of the inspection management device 100 according to this embodiment will be described with reference to FIG. 2. In FIG. 2, the master maintenance unit 102d executes master maintenance processing (step S1). Specifically, in the master maintenance processing, the master maintenance unit 102d sets data in the customer delivery destination product-specific inspection pattern master 106a and the inspection pattern master 106b in response to an operator's operation on a master maintenance screen (not shown) displayed on the monitor 112, for example.

The inspection results input unit 102a executes an inspection results input process (step S2). Specifically, in the inspection results input process, the inspection results input unit 102a inputs inspection results data including the inspection results of each inspection item (standard inspection item) determined within the company for each planned production product in response to, for example, an operator's operation on the input screen displayed on the monitor 114, and registers the data in the data file 106c.

The order input unit 102b executes the order input process (step S3). Specifically, in the order input process, the order input unit 102b inputs order information in response to an operator's operation on an input screen (not shown) displayed on the monitor 114, for example, and registers the information in the data file 106c.

The additional inspection determination unit 102c executes the additional inspection determination process (step S4). Specifically, in the additional inspection determination process, when allocating an order, the additional inspection determination unit 102c acquires an inspection pattern from the customer delivery product specific inspection pattern master 106a using the destination and product of the order information as a key, acquires an inspection item from the inspection pattern master 106b using the acquired inspection pattern as a key, compares the inspection items of the acquired inspection pattern master 106b with the inspection items of the inspection results data for the product, and determines that an additional inspection is required if there is an additional inspection item among the inspection items of the acquired inspection pattern master 106b that is an inspection item that does not exist in the inspection items of the inspection results data. If the additional inspection determination unit 102c determines that an additional inspection is required, it creates inspection request data for the additional inspection item based on the order information, the customer delivery product specific inspection pattern master 106a, and the inspection pattern master 106b, and registers it in the data file 106c.

Next, a specific example of the processing of the control unit 102 of the inspection management device 100 according to this embodiment will be described with reference to Figures 3 to 7.

(Master maintenance processing)
The master maintenance unit 102d sets data in the customer delivery destination product-specific inspection pattern master 106a and the inspection pattern master 106b in response to, for example, an operator's operation on a master maintenance screen (not shown) displayed on the monitor 112. Fig. 3 is a diagram for explaining the customer delivery destination product-specific inspection pattern master 106a and the inspection pattern master 106b. Fig. 4 is a diagram showing an example of data setting in the customer delivery destination product-specific inspection pattern master 106a and the inspection pattern master 106b.

In FIG. 3, the customer delivery product specific inspection pattern master 106a registers "target inspection patterns" by destination (customer, delivery destination) and product. In addition, the customer delivery product specific inspection pattern master 106a registers information such as points to note during inspection, additional inspection implementation period as a guideline for the completion of additional inspection, and shipping lead time. In the inspection pattern master 106b, a combination of multiple inspection items is registered for each inspection pattern. The customer delivery product specific inspection pattern master 106a and the inspection pattern master 106b are linked by inspection patterns (codes). The customer delivery product specific inspection pattern master 106a shown in FIG. 4(A) and the inspection pattern master 106b shown in FIG. 4(B) are linked by the inspection pattern "A-P-X001". By setting inspection patterns by destination (customer, delivery destination) and product, additional inspection items can be set by destination (customer, delivery destination) and product.

(Additional inspection and judgment process)
When allocating an order, the additional inspection determination unit 102c acquires an inspection pattern from the customer delivery product-specific inspection pattern master 106a using the destination and product of the order information as a key, acquires an inspection item from the inspection pattern master 106b using the acquired inspection pattern as a key, compares the inspection items in the acquired inspection pattern master 106b with the inspection items in the inspection result data for the product, and determines that an additional inspection is required if there is an additional inspection item that is not present in the inspection items in the inspection result data among the inspection items in the acquired inspection pattern master 106b. Figures 5 and 6 are diagrams for explaining an example of a case where additional inspection is required (Pattern 1). Figure 7 is a diagram for explaining an example of a case where additional inspection is not required (Pattern 2).

(Pattern 1: If additional testing is required)
5 and 6, the case where additional inspection is required (Pattern 1) will be described. In the example of inspection result data shown in FIG. 5(A), for the product "Product X" and lot number "20201001-1", the first line has a serial number "1", an inspection item code "KE001", an inspection item name "Properties", and an inspection result "No problem", the second line has a serial number "2", an inspection item code "KE002", an inspection item name "Confirmation test (1)", and an inspection result "No problem", the third line has a serial number "3", an inspection item code "KE004", an inspection item name "Confirmation test (2)", and an inspection result "No problem", the third line has a serial number "4", an inspection item code "KE005", an inspection item name "Confirmation test (3)", and an inspection result "No problem", the third line has a serial number "5", an inspection item code "KE006", an inspection item name "Confirmation test (4)", and an inspection result "No problem", the third line has a serial number "6", an inspection item code "KE007", an inspection item name "Confirmation test (5)", and an inspection result "No problem", the third line has a serial number "7", an inspection item code "KE008", an inspection item name "Confirmation test (6)", and an inspection result "No problem", the third line has a serial number "8", an inspection item code "KE009", an inspection item name "Confirmation test (7)", and an inspection result "No problem", the third line has a serial number "9", an inspection item code "KE001", an inspection item name "Properties", and an inspection result "No problem", the third line has a serial number "10", an inspection item code "KE002", an inspection item name "Confirmation test (8)", and an inspection result "No problem", the third line has a serial number "11", an inspection item code "KE003", an inspection item name "Confirmation test (9)", and an inspection result "No problem", the third line has The fourth line has the serial number "4", the test item code "KE004", the test item name "Melting point", and the test result "133.4", the fifth line has the serial number "5", the test item code "KE005", the test item name "Melting state", and the test result "No problem", the sixth line has the serial number "6", the test item code "KE006", the test item name "Arsenic (as As)", and the test result "0.0023".

In the example of order information shown in Figure 5 (B), the order number is "JUCHUU000001", the customer is "A Trading", the delivery destination is "P Warehouse", the shipping date is "2020/10/30", the product is "Product X", and the lot number is "20201001-1".

In the example of the inspection pattern master 106b shown in FIG. 5(B), for the inspection pattern "A-P-X001", the first line has the serial number "1", the inspection item code "KE001", the inspection item name "Properties", and the specification standard (standard value) "White crystals", the second line has the serial number "2", the inspection item code "KE002", the inspection item name "Confirmation test (1)", and the specification standard (standard value) "The liquid is red", the third line has the serial number "3", the inspection item code "KE003", the inspection item name "Confirmation test (2)", and the specification standard (standard value) "The liquid emits pale blue fluorescence under ultraviolet light", and the fourth line has the serial number "4", the inspection item code "KE004", the inspection item name "Melting point", and the specification standard (standard value) "127-132°C".

The fifth line has the serial number "5", the inspection item code "KE005", the inspection item name "Soluble state", and the specification standard (standard value) "Clear". The sixth line has the serial number "6", the inspection item code "KE006", the inspection item name "Arsenic (as As)", and the specification standard (standard value) "0.004 or less". The seventh line has the serial number "7", the inspection item code "KE007", the inspection item name "Easily oxidized", the specification standard (standard value) "2 μg/g or less", and the notes "XX takes priority, pay attention to the order". The eighth line has the serial number "8", the inspection item code "KE008", the inspection item name "Ignition residue", the specification standard (standard value) "0.1% or less", and the notes "Additional inspection, to be performed two days before shipment".

When allocating inventory for an order, the additional inspection determination unit 102c retrieves the inspection pattern "A-P-X001" from the customer-delivery-product-specific inspection pattern master 106a using the destination of the order information (customer "A Trading", delivery destination "P Warehouse") and product "Product X" as keys, retrieves the inspection items "KE001" to "KE008" from the inspection pattern master 106b using the retrieved inspection pattern "A-P-X001" as a key, compares the inspection items "KE001" to "KE008" in the retrieved inspection pattern master 106b with the inspection items "KE001" to "KE006" in the inspection performance data for the product, and determines that additional inspection is required because there are additional inspection items "KE007" and "KE008" that do not exist in the inspection items in the inspection performance data.

The additional inspection determination unit 102c creates inspection request data for the additional inspection items "KE007" and "KE008" based on the order information, the customer delivery product-specific inspection pattern master 106a, and the inspection pattern master 106b. Figure 6 (E) shows an example of the created inspection request data.

In the example of the inspection request data shown in FIG. 6 (E), the header information is the inspection instruction number "KS0000000001", the order number "JUCHUU000001", the product "Product X", the planned inspection date "2020/10/27", and the inspection delivery date "2020/10/29". The detailed information is as follows: on the first line, the inspection sequence number "1", the inspection item code "KE007", the inspection item name "Easily oxidized", the specification standard (standard value) "2 μg/g or less", and the notes "XX priority, pay attention to the order", and on the second line, the inspection sequence number "2", the inspection item code "KE008", the inspection item name "Ignition residue", the specification standard (standard value) "0.1% or less", and the notes "Additional inspection, to be performed two days before shipment".

The "scheduled inspection date" takes into account the shipping date plus the additional inspection period and shipping lead time, and can be calculated as follows: for example, scheduled inspection date = shipping date - (additional inspection period + shipping lead time). In the example shown in Figure 6 (E), scheduled inspection date "2020/10/27" = shipping date "2020/10/30" - (additional inspection period "2 days" + shipping lead time "1 day").

The "inspection delivery date" can be calculated by taking into account the shipping date plus the shipping lead time, for example, as inspection delivery date = shipping date - shipping lead time. In the example shown in Figure 6 (E), the inspection delivery date "2020/10/29" = shipping date "2020/10/30" - shipping lead time "1 day".

(Pattern 2: When no additional testing is required)
A case where additional inspection is not required (Pattern 2) will be described with reference to Fig. 7. Fig. 7(A) shows an example of inspection performance data, which is similar to Fig. 5(A). Fig. 7(B) shows an example of order information, which is similar to Fig. 5(B). Fig. 7(C) shows an example of customer delivery destination product-specific inspection pattern master 106a, which is similar to Fig. 5(C).

Figure 7 (D) shows an example of the test pattern master 106b, in which the serial number "6" in the 6th to 8th lines, the serial number "KE006" to the serial number "8", and the test item code "KE008" are missing from the example of the test pattern master 106b in Figure 5 (D).

The additional inspection determination unit 102c retrieves the inspection pattern "A-P-X001" from the customer-delivery-product-specific inspection pattern master 106a using the destination of the order information (customer "A Trading", delivery destination "P Warehouse") and product "Product X" as keys, retrieves the inspection pattern "A-P-X001" from the customer-delivery-product-specific inspection pattern master 106b using the retrieved inspection pattern "A-P-X001" as a key, and compares it with the inspection items "KE001" to "KE006" in the inspection performance data for the product in question, and determines that no additional inspection is necessary since there is no inspection item that does not exist in the inspection performance data.

As described above, according to this embodiment, the system includes a first master (customer delivery product inspection pattern master 106a) in which an inspection pattern is registered for each destination and product, which is a combination of a customer and a delivery destination, a second master (inspection pattern master 106b) in which multiple inspection items are registered for each inspection pattern, an inspection result input unit 102a that inputs inspection results data including the inspection results of predetermined inspection items for each produced product, an order input unit 102b that inputs order information including the destination and product, and an additional inspection determination unit 102c that, when allocating inventory for an order, acquires an inspection pattern from the first master using the destination and product of the order information as keys, acquires inspection items from the second master using the acquired inspection pattern as keys, compares the inspection items in the acquired second master with the inspection items in the inspection results data for the product, and determines that additional inspection is required if there is an inspection item among the inspection items in the acquired second master that does not exist in the inspection items in the inspection results data. This makes it possible to improve the efficiency of inspection work for products by destination, which is a combination of a customer and a delivery destination.

[4. Contribution to the United Nations-led Sustainable Development Goals (SDGs)]
This embodiment can contribute to improving business efficiency and promoting appropriate management decisions by companies, thereby making it possible to contribute to goals 8 and 9 of the SDGs.

In addition, this embodiment can contribute to reducing waste and promoting paperless and electronic systems, which can contribute to the achievement of SDGs goals 12, 13, and 15.

In addition, this embodiment can contribute to strengthening control and governance, making it possible to contribute to Goal 16 of the SDGs.

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

For example, among the processes described in the embodiments, all or part of the processes described as being performed automatically can be performed manually, or all or part of the processes described as being performed manually can be performed automatically using a known method.

In addition, the processing procedures, control procedures, specific names, registered data for each process, information including parameters such as search conditions, screen examples, and database configurations shown in this specification and drawings may be changed as desired unless otherwise specified.

Furthermore, with regard to the inspection management device 100, each component shown in the figure is a functional concept, and does not necessarily have to be physically configured as shown in the figure.

For example, the processing functions of the inspection management device 100, particularly the processing functions performed by the control unit 102, may be realized in whole or in part by a CPU and a program interpreted and executed by the CPU, or may be realized as hardware using wired logic. The program is recorded on a non-transient computer-readable recording medium that contains programmed instructions for causing the information processing device to execute the processes described in this embodiment, and is mechanically read by the inspection management device 100 as necessary. That is, a computer program for giving instructions to the CPU in cooperation with the OS and performing various processes is recorded in a storage unit such as a ROM or HDD (Hard Disk Drive). This computer program is executed by being loaded into RAM, and cooperates with the CPU to form the control unit.

This computer program may also be stored in an application program server connected to the inspection management device 100 via any network, and all or part of it may be downloaded as needed.

In addition, the program for executing the processing described in this embodiment may be stored on a non-transitory computer-readable recording medium, or may be configured as a program product. Here, the term "recording medium" refers to a memory card, a USB (Universal Serial Bus) memory, a SD (Secure Digital) card, a flexible disk, a magneto-optical disk, a ROM, an EPROM (Erasable Programmable Read Only Memory), an EEPROM (registered trademark) (Electrically Erasable and Programmable Read Only Memory), a CD-ROM (Compact Disk Read Only Memory), an MO (Magneto-Optical disk), a DVD (Digital Versatile This includes any "portable physical media" such as a Blu-ray (registered trademark) Disc, and a Blu-ray (registered trademark) Disc.

A "program" is a data processing method written in any language or description method, and may be in any format, such as source code or binary code. Note that a "program" is not necessarily limited to a single configuration, but also includes a distributed configuration consisting of multiple modules or libraries, and a program that works in conjunction with a separate program, such as an OS, to achieve its function. Note that the specific configuration and reading procedure for reading a recording medium in each device shown in the embodiments, as well as the installation procedure after reading, can use well-known configurations and procedures.

The various databases stored in the memory unit 106 are storage devices such as memory devices such as RAM and ROM, fixed disk devices such as hard disks, flexible disks, and optical disks, and store various programs, tables, databases, and web page files used for various processes and providing websites.

The inspection management 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 any peripheral device is connected. The inspection management device 100 may be realized by implementing software (including programs or data, etc.) that causes the device to realize the processing described in this embodiment.

Furthermore, the specific form of distribution and integration of the devices is not limited to that shown in the figures, and all or part of them can be functionally or physically distributed and integrated in any unit depending on various additions or functional loads. In other words, the above-mentioned embodiments can be implemented in any combination, or the embodiments can be implemented selectively.

100 Inspection management device 102 Control unit 102a Inspection record input unit 102b Order input unit 102c Additional inspection judgment unit 102d Master maintenance unit 102e Screen display control unit 104 Communication interface unit 106 Memory unit 106a Customer delivery destination product-specific inspection pattern master 106b Inspection pattern master 106c Data file 108 Input/output interface unit 112 Input device 114 Output device 200 Server 300 Network

Claims (7)

An inspection management device including a control unit and a storage unit,
The storage unit includes:
A first master in which an inspection pattern is registered for each destination, which is a combination of a customer and a delivery destination, and for each product;
a second master in which a plurality of inspection items are registered for each inspection pattern;
is stored,
The control unit is
an inspection result input means for inputting inspection result data including inspection results of predetermined inspection items for each manufactured product;
An order input means for inputting order information including a destination and a product;
additional inspection determination means for acquiring an inspection pattern from the first master using the destination and product of the order information as a key, acquiring inspection items from the second master using the acquired inspection pattern as a key, comparing the acquired inspection items of the second master with inspection items of inspection results data for the product, and determining that additional inspection is necessary if any of the acquired inspection items of the second master does not exist in the inspection items of the inspection results data;
An inspection management device comprising: The inspection management device according to claim 1, characterized in that the additional inspection determination means creates inspection request data for the additional inspection when it is determined that an additional inspection is necessary. The inspection management device according to claim 1 or 2, characterized in that the second master stores standards and precautions for each inspection item. The inspection management device according to claim 2, characterized in that the inspection request data includes specifications and precautions for additional inspection items. The inspection management device according to claim 2 or 4, characterized in that the inspection request data includes a scheduled inspection date and an inspection delivery date. An inspection management method executed by an information processing device having a control unit and a storage unit,
The storage unit includes:
A first master in which an inspection pattern is registered for each destination, which is a combination of a customer and a delivery destination, and for each product;
a second master in which a plurality of inspection items are registered for each inspection pattern;
is stored,
Executed in the control unit,
an inspection result input process for inputting inspection result data including inspection results of predetermined inspection items for each manufactured product;
an order input process for inputting order information including a destination and a product;
an additional inspection determination step of acquiring an inspection pattern from the first master using the destination and product of the order information as a key, acquiring inspection items from the second master using the acquired inspection pattern as a key, comparing the acquired inspection items of the second master with inspection items of inspection results data for the product, and determining that additional inspection is necessary if any of the inspection items of the acquired second master does not exist in the inspection items of the inspection results data;
An inspection management method comprising: An inspection management program to be executed by an information processing device having a control unit and a storage unit,
The storage unit includes:
A first master in which an inspection pattern is registered for each destination, which is a combination of a customer and a delivery destination, and for each product;
a second master in which a plurality of inspection items are registered for each inspection pattern;
is stored,
In the control unit,
an inspection result input process for inputting inspection result data including inspection results of predetermined inspection items for each manufactured product;
an order input process for inputting order information including a destination and a product;
an additional inspection determination step of, when allocating an order, acquiring an inspection pattern from the first master using the destination and product of the order information as a key, acquiring inspection items from the second master using the acquired inspection pattern as a key, comparing the acquired inspection items of the second master with inspection items of inspection results data for the product, and determining that an additional inspection is necessary if any of the acquired inspection items of the second master does not exist in the inspection items of the inspection results data;
An inspection management program for causing a computer to execute the above.

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