JP2011209978A - Information processing apparatus, and component replacement history and operation management apparatus and system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To acquire and manage a history of information on operating components or component replacements of an information processing apparatus, capable of acquiring component information upon operation of the information processing apparatus or component replacement.SOLUTION: The information processing apparatus 11 and a component replacement history and operation management apparatus 12 are connected by respective component information transmitting and receiving units 114 and 128. The information processing apparatus 11 acquires component information about the apparatus itself during operation of the apparatus or acquires component information about the apparatus itself and date information upon component replacement, and transmits the information to the component replacement history and operation management apparatus 12. The component replacement history and operation management apparatus 12 identifies an operating component or identifies a replaced component by the received information by reference to a component history master 121 and a component information master 122, and properly writes and manages the component information about the operating component or replaced component into the component history master 121 and component information master 122.

Description

  The present invention relates to an information processing apparatus, a parts replacement history / operation management apparatus, and a system, and more particularly, an information processing apparatus capable of parts replacement for repair or function improvement due to failure, and part replacement history by acquiring part information. The present invention relates to a component replacement history / operation management apparatus and system that performs both management and operation component management.

  Generally, a product of an information processing apparatus is manufactured at a product source (including an assembly maker) and delivered to a user, and then parts are replaced for repair or functional improvement due to a part failure. The product source manages the component parts for each product type of the product. However, once the product has been sold to the user, the product manufacturer shall manage these components unless the user provides information regarding the repair of the product and the configuration change for functional improvement. I can't. The same can be said about the operation status of the product.

  For example, a technique described in Patent Document 1 or the like is known as a conventional technique capable of managing the configuration of a product for each user. This prior art is not only managing the product configuration for each user, but also managing the product configuration for each of the parts constituting the product.

JP 2009-009492 A

  The above-described conventional technology aims to manage the latest part information for each user and the past history when the part is replaced. Therefore, in the business such as design information management, the latest history number of a part, By knowing the number of parts exchanged in the past, part information of parts with a date and time in the past, etc., it is possible to grasp the failure status of a product and use it for preventive measures. It does not mean that the operating status of the system is managed. For this reason, the above-described technique has a problem that the operation status of each part cannot be managed. The reason for managing the operating status of each part is that it can be used to select parts that have reached the end of their product life or to select parts that need to be overhauled. This is because it can be used as an index of manufacturing quality of each part by managing the operation status together.

  SUMMARY OF THE INVENTION An object of the present invention is to solve the problems of the prior art as described above, and to obtain information on parts by operating parts or replacing parts so that information on parts can be obtained. Another object of the present invention is to provide a component replacement history / operation management apparatus and system for acquiring history of component replacement and managing history.

  According to the present invention, the object is, in an information processing apparatus configured with a plurality of replaceable parts, when the restart of the apparatus is detected or when it is detected that a part has been inserted or removed, The component replacement detection means for detecting that the component of the information processing device has been replaced, and when the information processing device is activated and has detected that every hour has passed, the component of the information processing device is in operation. When it is detected that the part has been replaced by the operating part detecting means and the part replacement detecting means, or when the operating part detecting means detects that the part is operating, the part Part information acquisition means for acquiring part information of all parts including the identification code, and the acquired part information is transmitted to an external part replacement history / operation management apparatus connected to the information processing apparatus. This is achieved by providing the component information transmitting means.

  Further, the object is to provide component information receiving means for receiving component information from the information processing device and component information for recording component information including a component identification code and a replacement history in the component replacement history / operation management device of the information processing device. A storage unit, a component history information storage unit that records component history information including each component identification code, replacement history, replacement date of replacement, and operation time for each active component or component replaced; Whether or not the component information having the component identification code of the component information is extracted from the component information storage unit, and the component information extracted from the component information storage unit is compared with the received component information to determine whether the component has been replaced. A part replacement specifying means for specifying the part information, and a part information part having the part identification code and the manufacturing number of the part information from the part history storage means. Operating part specifying means for specifying whether or not the part information, part history information updating means for writing the part information as part history in the part history storage means, identification code of the part information from the part history storage means and past This is achieved by including component information having a change history at a certain point in time, and component information updating means for writing the component information read from the component history storage means into the component information storage means.

  The present invention can acquire part information when the information processing apparatus is operating or when parts are replaced by the information processing apparatus, so that the part replacement history and the operation management of each part can be easily performed. Can do.

1 is a block diagram illustrating a configuration of a component replacement history / operation management system of an information processing apparatus according to an embodiment of the present invention. It is a figure which shows the example of components structure of the information processing apparatus as a managed apparatus. It is a figure which shows the structural example of a components log | history master. It is a figure which shows the structural example of a components information master. It is a flowchart explaining processing operation | movement with the information processing apparatus when replacement | exchange of components is performed. It is a flowchart explaining processing operation | movement with the information processing apparatus when components are operating. FIG. 7 is a diagram illustrating a configuration example of part information and date information of the information processing apparatus acquired by the processes of steps S503 and S603 in the flows illustrated in FIGS. 10 is a flowchart for explaining a processing operation in a part replacement history / operation management apparatus that has received part information by part replacement or the like from the information processing apparatus. It is a flowchart explaining the detail of the process in step S802 of the flow shown in FIG. 10 is a flowchart for explaining a processing operation in a part replacement history / operation management apparatus that receives part information when the information processing apparatus is operating from the information processing apparatus. It is a flowchart explaining the detail of the process in step S1002 of the flow shown in FIG. It is a figure which shows the example of the components log | history master after the process in a components replacement log | history management apparatus was performed. It is a figure which shows the example of the components information master after the process in a components replacement log | history management apparatus was performed.

  Embodiments of a component replacement history / operation management system for an information processing apparatus according to the present invention will be described below in detail with reference to the drawings.

  FIG. 1 is a block diagram showing a configuration of a component replacement history / operation management system of an information processing apparatus according to the present invention.

  As shown in FIG. 1, an information processing apparatus component replacement / operation history management system according to an embodiment of the present invention includes an information processing apparatus 11 as a managed apparatus in which a part management history is recorded, and components in the information processing apparatus 11. A component replacement / operation history device 12 that manages the history of replacement or operation components is connected via a communication path such as a network (not shown). FIG. 1 shows only one information processing apparatus 11 as a managed apparatus. However, by providing a large number of information processing apparatuses 11 in the system, the parts replacement / operation management apparatus 12 has a plurality of information processing apparatuses 11. The device 11 can manage its component replacement or operating component history.

  The information processing apparatus 11 as a managed apparatus has a configuration including a CPU, a main memory, a storage device such as an HDD, a display device, a keyboard, a mouse, and the like represented by a PC. For the present invention, a component replacement detection unit 111, a working component detection unit 112, a component information acquisition unit 113, and a component information transmission unit 114 are provided therein.

  FIG. 2 is a diagram illustrating an example of a component configuration of the information processing apparatus 11 as a managed apparatus. As shown in FIG. 2, the information processing apparatus 21 includes a component “motherboard” 22, a component “I / O board” 23, a component “power supply 0” 24, a component “power supply 1” 25, a component “IC tag reader” 26, and a component. It is assumed that the component “motherboard” 22 includes a component “CPU0” 221, a component “CPU1” 222, a component “memory 0” 223, and a component “memory 1” 224.

  Each part is attached with an IC tag such as an RFID that stores part information, which is part information for identifying the part, part name, part number, and manufacturing number, in a memory. An IC tag reader capable of reading an IC tag by wireless communication is attached to the processing device 11 at the center so that all components in the information processing device 11 can be read, and the component information acquisition unit 113 includes the IC tag reader. The component information can be read using

  When the component replacement detection unit 111 detects that the component of the information processing device 11 has been replaced and when it detects that the information processing device has been restarted, the component replacement detection unit 111 sends all of the components of the information processing device to the component information acquisition unit 113. Instructs acquisition of part information and date information.

  When the operating component detection unit 112 detects that the information processing apparatus 11 has been activated and has passed every hour, the operating component detection unit 112 instructs the component information acquisition unit 113 to acquire component information of all components of the information processing apparatus.

  When receiving an instruction from the component replacement detection unit 111, the component information acquisition unit 113 acquires component information of all components of the information processing apparatus 11 from an IC tag such as an RFID attached to the component using an IC tag reader. Date information is acquired from a clock included in the information processing apparatus, and the component information and date information are passed to the component information transmission unit 114. Also, when receiving an instruction from the operating part detection unit 112, part information of all parts of the information processing apparatus 11 is acquired from an IC tag such as an RFID attached to the part using an IC tag reader, and the part information is obtained from the part information. It passes to the transmission means 114.

  The component information transmission unit 114 receives the component information and date information acquired from the component information acquisition unit 113 according to the instruction from the replacement component detection unit 111 or the component information acquired according to the instruction from the operating component detection unit 112. Product information is transmitted to the component information receiving means 128 of the operation management apparatus 12.

  The part history master 121 is a two-dimensional data composed of a part number for identifying a part, information indicating a part replacement history, a replacement history number indicating a part replacement history, and an operating time indicating a part operating time. It is a table. An exchanged part or an active part corresponds to one line of data in this data table, and is specified by a part number and an exchange history number.

  Note that the component history master 225 before component replacement and the component history master 233 after component replacement shown in FIG. 2 assume that the component “CPU1” 222 in the information processing apparatus 11 has been replaced. The situation before and after the change of the parts history master 121 in the management apparatus 12 is shown.

  Next, the data configuration of each master 121, 122 of the parts replacement history / operation management apparatus 12 and the outline of the function of each functional unit will be described.

  FIG. 3 is a diagram illustrating a configuration example of the component history master 121. The part history master 121 shown in FIG. 3 is an example of a part history master corresponding to the information processing apparatus 11 shown in FIG. 2, and a part number 302 for identifying the part, a part name 303, a part number 304, and a part manufacturing number. 305 is a two-dimensional table configured by storing a plurality of records including a replacement date 306 indicating the replacement date of a component, a replacement history number 307 indicating a replacement history of the component, and an operation time 308 indicating the operation time of the component. In the parts history master 121, when parts are exchanged, a new record is created and stored. The example illustrated in FIG. 3 illustrates a state of the information processing apparatus 11 in which the exchange history number 307 of all records is “1” and the operation time 308 is “10000”.

  FIG. 4 is a diagram illustrating a configuration example of the component information 122. The part information master 122 shown in FIG. 4 is configured by storing a plurality of records each including a part number for identifying a part, information about the part such as a part manufacturing number, and an exchange history number indicating a part replacement history. It is a dimensional data table. One part identified by one part number corresponds to the data of the record in one line of this data table.

  A part information master 122 shown in FIG. 4 is an example of a part information master corresponding to the information processing apparatus 11 shown in FIG. 2, and a part number 402 for identifying a part, a part name 403, a part number 404, and a part manufacturing number. 405, composed of an exchange history number 406 indicating a part exchange history.

  The component history master 121 and the component information master 122 described above are provided for each information processing apparatus, and are not shown in FIGS. 3 and 4, but each master table includes information processing apparatuses. Device identification information such as a device name and a device number for identifying the device. Also, these masters are created as masters indicating the initial state by the process described later when the information processing apparatus is first started up.

  The operating component specifying unit 123 is added as to whether or not the component information transmitted from the information processing apparatus 11 and received by the component information receiving unit 128 and received via the control unit 127 is operating component information. It is specified whether or not the information is part information, or is part information that is not in operation.

  The component replacement specifying unit 124 is added whether or not the component information transmitted from the information processing apparatus 11 and received by the component information receiving unit 128 and received via the control unit 127 is the replaced component information. It is specified whether the information is part information, or whether the part information is not replaced.

  The component history master update unit 125 uses the component information transmitted from the control unit 127 and the component number transmitted from the component information master 122 based on the instruction from the control unit 127 and the identification result from the component replacement identification unit 124. Based on the history number, the component number, information indicating the replacement history of the component, and the replacement history number are additionally written in the component history master 121. Further, based on the instruction from the control unit 127 and the identification result from the operation component identification unit 123, the operation time indicating the operation time of the component in the component history master 121 using the component information and the component number transmitted from the control unit 127 is obtained. Update.

  The component information master update unit 126 reads the component information data from the component history master 121 using the instruction of the control unit 127 and the component number received from the component history master update unit 125 and the latest replacement history number. The read data is overwritten on the part information of the corresponding part number in the master 122.

  The control unit 127 instructs the operating component specifying unit 123, the component replacement specifying unit 124, the component history master updating unit 125, and the component information master updating unit 126 to process, and the operating component specifying unit from the component information receiving unit 128. The part information and date information received from the part information receiving unit 128 are passed to the received product information and part replacement specifying unit.

  The component information receiving unit 128 is acquired by the component information and date information and device identification information acquired from the component information transmitting unit 114 of the information processing apparatus 11 according to the instruction from the replacement component detecting unit 111 or the instruction from the operating component detecting unit 112. The received component information and device identification information are received and passed to the control unit 127.

  FIG. 5 is a flowchart for explaining the processing operation in the information processing apparatus 11 when parts are exchanged. Next, this will be explained. The example of the process described here is an example in which the component “CPU1” 222 of the information processing apparatus 11 illustrated in FIG. 2 is replaced. Also, at the start of this processing, the information processing apparatus 11 is assumed to be in an operable state with its power turned on.

  (1) When the processing here is started, the component replacement detection unit 111 determines whether or not the information processing apparatus 11 shown in FIG. 2 has been restarted. It is determined whether or not. If the information processing apparatus 11 has not been restarted and if no parts have been removed or inserted, the processing here is terminated without doing anything (steps S501 and S502). As a method for detecting the insertion / removal of the components of the information processing apparatus 11, each component “microcomputer” 27 shown in FIG. 2 can be replaced while the power of the information processing apparatus 11 is turned on using the I2C bus (see FIG. In the configuration example shown in FIG. 2, it is always detected that the component “power supply 0” 24 and component “power supply 1” 25) are operating, and if there is no response, it is determined that the component has been inserted or removed. Can be detected.

  (2) If it is determined in step S501 that the information processing apparatus has been restarted, or if it is determined in step S502 that a component has been inserted or removed, the component replacement detection unit 111 causes the component information acquisition unit 113 to The acquisition of the component information and date information of all the components in the information processing apparatus 11 is instructed, and based on this instruction, the component information acquisition unit 113 changes the component information of all the components in the information processing apparatus 11 from the IC tag to the IC. It acquires using a tag reader and also acquires date information (step S503).

(3) Thereafter, the component information transmission unit 114 acquires the component information and date information of all the components in the information processing apparatus 11 acquired by the component information acquisition unit 113 together with the device identification information of the information processing apparatus. -It transmits to an operation management apparatus, and a process here is complete | finished (step S504).
In general, there are two types of methods for exchanging parts of an information processing apparatus: a method of exchanging while the power of the information processing apparatus is turned off, and a method of exchanging while the power of the information processing apparatus is turned on. The determination process in step S501 of the flow described with reference to FIG. 5 is for responding to the part replacement performed in a state where the information processing apparatus is turned off. In addition, the determination process in step S502 is performed. The processing is for responding to the replacement of the component with the information processing apparatus powered on.

  FIG. 6 is a flowchart for explaining the processing operation in the information processing apparatus 11 when the component is operating. Next, this will be explained. The example of the process described here is an example performed after the replacement of the component “CPU1” 222 of the information processing apparatus 11 illustrated in FIG. At the start of this processing, the information processing apparatus 11 is assumed to be in an operable state with its power turned on.

  (1) When the processing here is started, the operating part detection unit 112 determines whether or not the power of the information processing apparatus 11 shown in FIG. 2 is turned on. It is determined whether or not 1 hour has passed in the state where is turned on. If the information processing apparatus is not turned on, or if every hour has not passed since the power is turned on, the processing from step S601 is repeated (steps S601 and S602).

  (2) When it is determined in step S601 that the information processing apparatus is powered on, and in step S602, when one hour has elapsed with the power turned on, the operating part detection unit 112 The information acquisition unit 113 is instructed to acquire the component information of all the components in the information processing device unit 11, and based on this instruction, the component information acquisition unit 113 converts the component information of all the components in the information processing device 11 to the IC. It acquires from a tag using an IC tag reader (step S603).

  (3) After that, the component information transmission unit 114 acquires the component information of all the components in the information processing apparatus 11 acquired by the component information acquisition unit 113 together with the device identification information of the information processing apparatus. To terminate the processing here (step S604).

  7 is a configuration example of the component information and date information of the information processing apparatus acquired in the process of step S503 in the flow shown in FIG. 5, or the component information of the information processing apparatus acquired in the process of step S603 in the flow shown in FIG. FIG. The component information 701 illustrated in FIG. 7A and the date information 711 illustrated in FIG. 7B are examples of component information corresponding to the information processing apparatus 11 illustrated in FIG. The part information 701 is a two-dimensional table including a part number 702 for identifying a part, a part name 703, a part number 704, and a part manufacturing number 705. Here, the record in the row 706 is the component information for which the component has been replaced. The date information 711 includes a date 712 when the part is replaced.

  FIG. 8 is a flowchart for explaining the processing operation in the part replacement history / operation management apparatus 12 that has received part information from the information processing apparatus 11, and this will be described next.

  (1) When the processing here is started, the component information reception unit 128 displays the component information and date information notified from the component information transmission unit 114 of the information processing apparatus 11, shown in FIG. As described above, “070326” is received together with the device identification information and notified to the control unit 127 (step S801).

  (2) The control unit 127 outputs the notified date information, here “070326”, and part information (including the part number) for each part number of the part information to the part replacement specifying unit 124 one by one. The replacement specifying unit 124 determines whether the component information received from the control unit 127 is replaced component information, whether the component information is added component information, or whether the component information is not replaced. Is identified with reference to the component information master 122 corresponding to the device identification information (this process will be described later with reference to FIG. 9), and the identification result is transmitted to the component history master update unit 125 (step S802).

  (3) The component history master update unit 125 uses the component number “0001” when the specific result determined in step S802 is the component information received from the control unit 127, and uses the component number “0001”. Data of the exchange history number is read from the information master 122 (step S803).

  (4) Next, the replacement history number obtained by adding “1” to the read replacement history number, here “2”, the operation time “0” as the operation time, and the component information received from the control unit 127 Create a record with the number “0001”, the part name “CPU1”, the part number “6860370”, the production number “C02450100”, and the date of modification “070326”, and add the record to the part history master 121 and write it. I do. Further, the part history master update unit 125 notifies the part information master update unit 126 of the part number “0001” of the part information and the replacement history number “2” (step S804).

  (5) If the identification result determined in step S802 is the component information added with the component information received from the control unit 127, the component history master update unit 125 receives the component information received from the control unit 127. Create a record with the number, part name, part number, manufacturing number, date information as replacement date, replacement history number “1”, and operating time “0”, and add the record to the component history master 121 Write. Further, the component history master update unit 125 notifies the component information master update unit 126 of the component number of the component information and the replacement history number (step S805).

  (6) In step S804 or S805, the component information master update unit 126 that has received the notification from the component information history master update unit 125 receives the component number “0001” and the replacement history number received from the component history master update unit 125. Using “2”, the part number, part name, part number, manufacturing number, and replacement history number data are read from the part history master 121 corresponding to the device identification information, and the read data is used as the part number “0001”. Thus, the corresponding part information of the part number “0001” in the part information master 122 is overwritten (steps S806 and S807).

  (7) After the processing in step S807, the component information master update unit 126 notifies the control unit 127 of the completion of the component update, and the specific result determined in step S802 is the component information received from the control unit 127. If the component information has not been replaced, the control unit 127 is notified of the completion of the component update. When the control unit 127 receives the update completion of the component, the control unit 127 determines whether or not the processing for all the component information has been completed. If not, the control unit 127 obtains the date information and the next component information (for each component number) as the component. The data is output to the replacement specifying unit 124, and the processing from step S802 is continuously repeated. When the processing for all the component information has been completed, the processing here is terminated (step S808).

  FIG. 9 is a flowchart for explaining the details of the processing in step S802 of the flow shown in FIG. 8, which will be described next.

  (1) When the processing here is started, the component replacement specifying unit 124 uses the component number of the component information received from the control unit 127, here the component number “0001”, and the component number “0001” from the component information master 122. Is extracted (step S901).

  (2) If the component information can be extracted from the component information master 122, the extracted data and the component information received from the control unit 127 are compared. If there is no difference in the component information, the component information is identified as not being replaced, and the identification result is notified to the component history master update unit 125 (step S902).

  (3) If the data extraction process in step S901 fails to extract the data by the part number, the part information received from the control unit 127 is identified as the added part information, and the part history master update unit The specific result is notified to 125 (step S903).

  FIG. 10 is a flowchart for explaining the processing operation in the part replacement history / operation management apparatus 12 that has received part information from the information processing apparatus 11, and this will be described next.

  (1) When the processing here is started, the component information receiving unit 128 receives the component information notified from the component information transmitting unit 114 of the information processing apparatus 11 together with the device identification information, and notifies the control unit 127 of the received component information. (Step S1001).

  (2) The control unit 127 outputs part information (including the part number) for each part number of the part information to the operating part specifying unit 123 one by one, and the operating part specifying unit 123 receives the part received from the control unit 127. The component history master 121 corresponding to the device identification information indicates whether the information is operating component information, added component information, or non-operating component information. The process is specified with reference to (this process will be described later with reference to FIG. 11), and the specified result is transmitted to the component history master update unit 125 (step S1002).

  (3) The component history master update unit 125, when the identification result determined in step S802 is the component information received from the control unit 127, the component number “0001” and the production number “ C02450100 ”is used to read the corresponding operation time data from the component history master 121 (step S1003).

  (4) Next, using the part number “0001” and the production number “C02450100”, which are part information received from the control unit 127, the part history master obtained by adding “1” to the read operation time. The corresponding operating time is overwritten from 121 (step S1004).

  (5) After the process of step S1004, the component history master update unit 126 notifies the control unit 127 of the completion of the component update, and the specific result determined in step S1002 is the component information received from the control unit 127. If the component information is not operating or is added component information, the control unit 127 is notified of completion of the component update. When the control unit 127 receives the update completion of the component, the control unit 127 determines whether or not the processing for all the component information has been completed. If not, the control unit 127 obtains the next component information (for each component number) as the operation component specifying unit. When the processing for all component information has been completed, the processing here ends (step S1005).

  FIG. 11 is a flowchart for explaining details of the process in step S1002 of the flow shown in FIG. 10, and this will be described next.

  (1) When the processing here is started, the part replacement specifying unit 124 uses the part number “0001” and the manufacturing number “C02450100” of the part information received from the control unit 127 to store the corresponding data from the part history master 121. Extraction is performed (step S1101).

  (2) When the component information can be extracted from the component history master 121, the component information is identified as the active component information, and the identification result is notified to the component history master update unit 125 (step S1102).

  (3) If the data extraction process in step S1101 fails to extract the data based on the part number and the manufacturing number, the part information added from the part information received from the control unit 127 or the part information that is not in operation And the result of the identification is notified to the component history master update unit 125 (step S1103).

  FIG. 12 is a diagram illustrating an example of a component history master after the processing in the component replacement history / operation management apparatus described with reference to FIGS. 8, 9, 10, and 11 is performed. In the example described with reference to FIGS. 8 and 9, since the part “CPU1” having the part number “0001” is exchanged, the part history master 1201 shown in FIG. A record 1009 is added to the component history master 121 shown in FIG. Then, “2” is stored in the exchange history number 1207 of this record, and “0” is stored in the operation time 1208. In the example illustrated in FIGS. 10 and 11, the component “CPU1” having the component number “0001” and the manufacturing number “C02450100” are in operation, so the component history master 1211 illustrated in FIG. “1” is stored in the operation time 1218 of the record 1219 indicating the component information of this component.

  FIG. 13 is a diagram illustrating an example of the component information master after the processing in the component replacement history / operation management apparatus described with reference to FIGS. 8 and 9 is performed. In the example described, it is assumed that the component “CPU1” having the component number “0001” has been replaced. Therefore, in the component information master 1301 illustrated in FIG. 13, the component information of the component “CPU1” having the component number “0001”. The production number 1305 of the record 1307 is changed to “C02450100”, and the replacement history number 1306 is set to “2”.

  According to the above-described embodiment of the present invention, the parts information master stores the latest part information of each part, and the parts history master stores the replacement date, change history number, operating time, and past of each part. Can be stored. Also, the component information master and the component history master can be created from the component information acquired by the information processing apparatus without preparing the component information master and the component history master in advance. However, since the part information on the day when the history management is started becomes the base data of the part information master and the part history master, the part replacement history information generated before that cannot be grasped.

  In the above-described embodiment of the present invention, the component information constituting the information processing apparatus has been described as being acquired from an IC tag such as an RFID attached to each component using an IC tag reader. For example, the MAC address of each component may be acquired by software.

DESCRIPTION OF SYMBOLS 11 Information processing apparatus 12 Parts replacement history / operation management apparatus 111 Replacement part detection part 112 Operating part detection part 113 Part information acquisition part 114 Part information transmission means 121 Part history master 122 Part information master 123 Operating part specification part 124 Parts replacement specification part 125 Component history master update unit 126 Component information master update unit 127 Control unit 128 Component information receiving means

Claims (4)

  In an information processing apparatus composed of a plurality of parts that can be replaced, when the restart of the apparatus is detected, or when it is detected that a part has been inserted or removed, the part of the information processing apparatus is replaced. A component replacement detection unit that detects that the information processing device has been activated, and an operating component detection unit that detects that the component of the information processing device is operating when it is detected that every hour has elapsed. When the part replacement detection unit detects that a part has been replaced, or when the operating part detection unit detects that the part is operating, the part information of all parts including the part identification code Component information acquisition means for acquiring the component information, and component information transmission means for transmitting the acquired component information to an external component replacement history / operation management device connected to the information processing apparatus. An information processing apparatus characterized by that.   An IC tag storing component information in a memory is attached to each of a plurality of components constituting the information processing apparatus, and the component information acquisition unit acquires component information from the IC tag, RFID, or the like. The information processing apparatus according to claim 1, wherein:   In the component replacement history / operation management device of the information processing device, component information receiving means for receiving component information from the information processing device according to claim 1, and component information for recording component information including a component identification code and a replacement history A storage unit, a component history information storage unit that records component history information including each component identification code, replacement history, replacement date of replacement, and operation time for each active component or component replaced; Whether or not the component information having the component identification code of the component information is extracted from the component information storage unit, and the component information extracted from the component information storage unit is compared with the received component information to determine whether the component has been replaced. A part replacement specifying means for specifying the part information, and a part information part having the part identification code and the manufacturing number of the part information from the part history storage means. Operating part specifying means for specifying whether or not the part information, part history information updating means for writing the part information as part history in the part history storage means, identification code of the part information from the part history storage means and past A component replacement history / operation management apparatus comprising: component information updating means for extracting part information having a change history at a certain point of time and writing the component information read from the part history storage means into the component information storage means.   In a component replacement history / operation management system that manages the history of part replacement or operating parts of an information processing apparatus configured by a plurality of parts that can be replaced, the information processing apparatus manages part replacement or operating part history. It is connected to the component replacement history / operation management device via a communication line, and when it is detected that the information device has been restarted, or when it has been detected that the component has been inserted or removed, Component replacement detection means for detecting that the replacement has been performed, and operating component detection for detecting that the component of the information processing device is operating when the information processing device has been activated and detected that every hour has elapsed And the parts replacement detection means detect that the parts have been replaced, or the operating parts detection means detects that the parts are operating. Component information acquisition means for acquiring component information of all components including a component identification code, and component information for transmitting the acquired component information to an external component replacement history / operation management device connected to the information processing device The component replacement history / operation management device includes component information receiving means for receiving component information from the information processing device, and component information for recording component information including a component identification code and a replacement history. A storage unit, a component history information storage unit that records component history information including each component identification code, replacement history, replacement date of replacement, and operation time for each active component or component replaced; The component information having the component identification code of the component information is extracted from the component information storage unit, the component information extracted from the component information storage unit and the received component information Component replacement specifying means for specifying whether or not it is a replaced part, and part information having a part identification code and a manufacturing number of the part information from the part history storage means and An operating part specifying means for specifying whether there is a component, a part history information updating means for writing the part information as a part history into the part history storage means, an identification code of the part information from the part history storage means, and a past Component replacement history / operation management characterized by comprising component information updating means for fetching part information having a change history at a time point and writing the part information read from the part history storage means into the part information storage means system.

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