JP4437125B2 - Information processing device - Google Patents

Description

  The present invention relates to an information processing apparatus including a computer in which a plurality of components are incorporated.

  The computer contains a plurality of components used for executing the computer program. For example, the first and second parts of the plurality of parts respectively represent an execution unit and a hard disk drive (hereinafter referred to as HDD). The execution unit includes a CPU (Central Processing Unit). The HDD includes a disk that rotates at a high speed and a head that writes and reads data without contact with the disk. The disc has an area in which the above computer program is stored and a memory area other than that. The execution unit executes the above-described computer program and executes a seek operation for controlling the head so that data is written to or read from the memory area of the HDD. At this time, noise is generated by the seek operation.

  In order to reduce the noise caused by the seek operation, a personal computer that switches between a high-speed seek mode and a low-noise low-speed seek mode is described in Patent Document 1. However, when a sound (abnormal sound) when the component is abnormal is generated as a sound generated by a component such as the execution unit or the HDD, the technique described in Patent Document 1 cannot cope with the sound. In such a case, it is desirable for the user to know that an abnormal noise has occurred and take measures such as arranging for computer repairs promptly. Thus, it is desirable to be able to detect abnormal sounds generated from the inside of the computer.

  The above Patent Document 1 is introduced. Japanese Unexamined Patent Publication No. 11-126422 (Patent Document 1) describes a personal computer. The personal computer has a hard disk drive (hereinafter abbreviated as HDD) as an auxiliary storage device. The personal computer includes at least one of a microphone that detects an ambient sound level of the personal computer, a vibration sensor that detects a vibration level of the personal computer, and a level determination that determines an output level of at least one of the microphone and the vibration sensor. And a control means for switching and controlling the seek mode of the HDD according to the output of the circuit and the level determination circuit. As a result, noise reduction during the seek operation generated from the built-in HDD and prevention of deterioration of the head positioning accuracy due to vibration received from the outside are automatically performed according to the surrounding environment.

  Japanese Patent Laying-Open No. 2005-4544 (Patent Document 2) describes a computer device. The computer device can switch the operating state of the system to a plurality of states with different power consumption. The computer apparatus includes apparatus state determination means for determining a physical state of the apparatus main body, and system state control means for controlling switching of the operating state of the system. The system state control means does not switch the operation state of the system when the apparatus main body is moving in the determination of the apparatus state determination means when attempting to switch the operation state of the system. It is characterized by performing control to maintain the current operating state. Thus, by controlling the switching of the system state in ACPI or the like based on the presence or absence of physical movement of the computer such as vibration or movement, various devices of the computer are protected from physical impact.

  Japanese Unexamined Patent Publication No. 10-226470 (Patent Document 3) describes an elevator vibration analysis apparatus. An elevator vibration analysis apparatus includes an acceleration sensor that detects a traveling vibration of an elevator, and a vibration analysis system that analyzes vibration characteristics corresponding to a traveling speed and a traveling position of the elevator from data of the traveling vibration detected by the acceleration sensor. A vibration abnormality diagnosing unit for diagnosing the level of the abnormal location and the abnormal state of the elevator with respect to the traveling vibration data analyzed by the vibration analysis system unit, and a diagnosis result in the vibration abnormality diagnosing unit , A recovery support information unit that extracts and derives support information necessary for recovery of the abnormal part from data stored in advance, support information from the recovery support information unit, and an elevator diagnosed by the vibration abnormality diagnosis unit An analysis result display unit for displaying an abnormal state, the analysis result display unit, the vibration analysis system unit, and the vibration abnormality It is characterized by comprising a cross section and the recovery support information unit controllable input means each part of. Thereby, it is possible to detect an abnormal part of the elevator from the data of the traveling vibration of the elevator, grasp the cause, and carry out an accurate repair and recovery.

Japanese Patent Laid-Open No. 11-126422 JP 2005-4544 A Japanese Patent Laid-Open No. 10-226470

  The subject of this invention is providing the information processing apparatus which can detect the abnormal sound which generate | occur | produces from the inside.

  Hereinafter, means for solving the problem will be described using the numbers and symbols used in [Best Mode for Carrying Out the Invention]. These numbers and symbols are added to clarify the correspondence between the description of [Claims] and the description of [Best Mode for Carrying Out the Invention]. It should not be used to interpret the technical scope of the invention described in “

The information processing apparatus of the present invention is a computer (1). The computer (1) includes a housing (2) which is a computer main body, a plurality of components (10-1 to 10-N) (N is an integer of 1 or more) provided in the housing (2), The detection part (21) provided in the said housing | casing (2), and the test | inspection apparatus (30) provided in the said housing | casing (2) are comprised. The plurality of parts (10-1 to 10-N) are used to execute a computer program (13).
Or the information processing apparatus of this invention is the said inspection apparatus (30). In that case, the said inspection apparatus (30) is connected to the said computer (1) in which the function of the said inspection apparatus (30) is not incorporated. In this case, the detection unit (21) is provided in the inspection device (30) instead of the housing (2).
The said detection part (21) detects the vibration of the said housing | casing (2).
The inspection device (30) includes a determination unit (34), a component identification unit (35), and a notification unit (36).
The determination unit (34) determines whether the vibration of the housing (2) is vibration inside the housing (2).
When the vibration of the housing (2) is the vibration inside the housing (2), the component specifying unit (35) is at least one of the plurality of components (10-1 to 10-N). A specific part representing one part is identified, and corresponding specific part information representing the specific part is output.
The notification unit (36) notifies the user that an abnormal sound is generated by the specific component represented by the corresponding specific component information.

The detection unit (21) detects a detected vibration level when the casing (2) vibrates as vibration of the casing (2).
The determination unit (34) determines whether or not the detected vibration level is equal to or lower than a set vibration level representing vibration inside the housing (2).
When the detected vibration level is equal to or lower than the set vibration level, the component specifying unit (35) specifies the specific component and outputs the corresponding specific component information representing the specific component.

In the information processing apparatus of the present invention, the inspection device (30) further includes a storage unit (33). The storage unit (33) includes a plurality of abnormal vibration levels (41-1 to 41-M) (M is an integer of 1 or more) representing the different abnormal sounds, and the specific component that generates the abnormal sounds. A plurality of pieces of specific component information (42-1 to 42-M) are stored.
In this case, when the detected vibration level is equal to or lower than the set vibration level, the component specifying unit (35) is configured to store the plurality of abnormal noise levels (41-1 to 41-) stored in the storage unit (33). A corresponding abnormal vibration level (41-5) matching the detected vibration level is acquired from M). Next, the component identification unit (35) selects the corresponding abnormal vibration level (41-) from the plurality of specific component information (42-1 to 42-M) stored in the storage unit (33). The corresponding specific part information (42-5) corresponding to 5) is acquired and output.
The notification unit (36) notifies that the abnormal sound is generated by the specific parts (10-2, 10-N) represented by the corresponding specific part information (42-5).

The information processing apparatus of the present invention further includes a collection unit (22) provided in the housing (2). The collection unit (22) collects collected vibration levels representing sounds generated by the plurality of components (10-1 to 10-N).
The inspection device (30) further includes a storage unit (33). The storage unit (33) includes a plurality of abnormal vibration levels (41-1 to 41-M) (M is an integer of 1 or more) representing the different abnormal sounds, and the specific component that generates the abnormal sounds. A plurality of pieces of specific component information (42-1 to 42-M) are stored.
In this case, when the detected vibration level is equal to or lower than the set vibration level, the component specifying unit (35) is configured to store the plurality of abnormal noise levels (41-1 to 41-) stored in the storage unit (33). The corresponding abnormal vibration level (41-5) that matches the collected vibration level collected by the collecting unit (22) is acquired from M). Next, the component identification unit (35) selects the corresponding abnormal vibration level (41-) from the plurality of specific component information (42-1 to 42-M) stored in the storage unit (33). The corresponding specific part information (42-5) corresponding to 5) is acquired and output.
The notification unit (36) notifies that the abnormal sound is generated by the specific parts (10-2, 10-N) represented by the corresponding specific part information (42-5).

  In the information processing apparatus of the present invention, the detection unit (21) is an acceleration sensor that detects the detected vibration level by measuring gravitational acceleration in a specific direction.

The specific direction includes a first direction (X direction), a second direction (Y direction) perpendicular to the first direction, and a third direction (Z direction) perpendicular to the first direction and the second direction. Including.
The detected vibration level is a total value of gravitational accelerations in the first, second, and third directions (X, Y, and Z directions).

  In the information processing apparatus of the present invention, the collection unit (22) is a sound collection microphone.

In the information processing apparatus of the present invention, the plurality of components (10-1 to 10-N) includes a hard disk drive (hereinafter referred to as HDD) (10-2) and an execution unit (10-1). The execution unit (10-1) executes the computer program (13) and writes / reads data to / from the HDD (10-2) (14).
The specific component represents at least one of the HDD (10-2) and the execution unit (10-1).

In the information processing apparatus of the present invention, the plurality of components (10-1 to 10-N) further includes a cooling fan (10-N). The cooling fan (10-N) cools heat generated in the casing (2).
The specific component represents at least one of the HDD (10-2), the execution unit (10-1), and the cooling fan (10-N).

  In the information processing apparatus according to the present invention, the computer (1) further includes a head retraction processing unit (20) provided in the housing (2). When the vibration level is higher than the set vibration level, the head retracting unit (20) executes a head retracting process in the HDD (10-2).

In the information processing apparatus of the present invention, the HDD (10-2) includes a disk (11) and a head (12) for writing and reading data in a non-contact manner with respect to the disks (11) (14). I have.
In the head retracting process, the head (12) is retracted from the disk (11) so that the head (12) does not come into contact with the disk (11) due to an external impact.

  The information processing apparatus of the present invention further includes a display device (3). The notification unit (36) notifies the user that the abnormal sound is generated by displaying a screen representing the corresponding specific component information on the display device (3).

  The information processing apparatus of the present invention further includes an audio output device (4). The notification unit (36) notifies the user that the abnormal sound is generated by outputting a sound representing the corresponding specific component information to the sound output device (4).

According to the information processing apparatus of the present invention, the inspection device (30) executes the abnormal sound search process when the detected vibration level when the housing (2) vibrates is equal to or lower than the set vibration level. In the abnormal sound search process, the inspection device (30) has a detected vibration level or a collected vibration level representing a sound generated by a plurality of components (10-1 to 10-N) having a plurality of components (10-1 to 10-1). 10-N), when it corresponds with the corresponding abnormal noise vibration level representing the abnormal noise generated by the specific component which is at least one component of 10-N), it is notified that the abnormal noise is generated by the specific component. Thereby, it is possible to detect an abnormal sound generated from the inside of the computer (1), and the user knows that the abnormal sound has occurred and takes measures such as arranging for repair of the computer (1). be able to.
According to the information processing apparatus of the present invention, when the vibration level is higher than the set vibration level, the head retraction processing unit (20) executes the head retraction process as a known technique. Conventionally, a sensor that measures the detected vibration level is used to determine whether or not to perform the head retracting process. As this sensor, an acceleration sensor (21) is exemplified. Thus, according to the computer (1) of the present invention, the abnormal sound search process can be realized by adding only the inspection device (30) to the conventional computer.
Alternatively, according to the information processing apparatus (inspection apparatus (30)) of the present invention, the abnormal sound search process is performed by adding only the inspection apparatus (30) and the sound collecting microphone (22) to the conventional computer. Can be realized. In this case, it is possible to discriminate between non-defective products and defective products related to abnormal noise during a test before shipment.
According to the information processing apparatus of the present invention, in order to perform the abnormal sound search process, several patterns of abnormal vibration levels (41-1 to 41-M) and the above-described specific part information (42-1 to 42-M) are obtained. ) In the storage unit (33), it is possible to specify a specific component that generates abnormal noise.

  According to the information processing apparatus of the present invention, it is possible to detect abnormal sounds generated from the inside.

  Hereinafter, an information processing apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

(First embodiment)
FIG. 1 shows the configuration of an information processing apparatus according to the first embodiment of the present invention.
The information processing apparatus according to the first embodiment is a computer 1, a housing 2 that is a computer main body, a plurality of components 10-1 to 10 -N (N is an integer of 1 or more), a head retraction processing unit 20, and , An acceleration sensor 21, which is a detection unit, an inspection device 30, and an output device 5. The output device 5 includes a display device 3 and an audio output device 4 that is a speaker.
The plurality of components 10-1 to 10 -N, the head retraction processing unit 20, the acceleration sensor 21, and the inspection device 30 are provided in the housing 2.

  The plurality of components 10-1 to 10-N are used to execute a computer program.

For example, the components 10-1 and 10-2 among the components 10-1 to 10-N represent an execution unit and a hard disk drive (hereinafter, HDD), respectively. The execution unit 10-1 includes a CPU (Central Processing Unit).
The HDD 10-2 includes a disk 11 that rotates at a high speed and a head 12 that writes and reads data without contact with the disk 11. The disk 11 includes an area in which the computer program 13 that is the above-described computer program is stored, and a memory area 14 other than that.
The execution unit 10-1 executes the computer program 13 described above. At this time, the execution unit 10-1 executes a seek operation for controlling the head 12 so that data is written to and read from the memory area 14 of the HDD 10-2.

  For example, the component 10-N among the plurality of components 10-1 to 10-N represents a cooling fan. The cooling fan 10 -N cools the heat generated in the housing 2.

  The head evacuation processing unit 20 is attached to the HDD 10-2 in the housing 2 and executes head evacuation processing in the HDD 10-2 in response to a head evacuation instruction. The head withdrawal process is a known technique. As shown in FIG. 2, in the head retracting process, the head retracting unit 20 prevents the head 12 from coming into contact with the disk 11 due to the impact when the impact is generated from the outside to the housing 2. Is saved from the disk 11.

The acceleration sensor 21 is attached to the HDD 10-2 in the housing 2, for example. Conventionally, the acceleration sensor 21 is used to determine whether or not to perform the above-described head retracting process. As shown in FIG. 3, the acceleration sensor 21 generates a detected vibration level when the housing 2 vibrates as acceleration information. The detected vibration level is generated when the acceleration sensor 21 measures gravitational acceleration in a specific direction. The specific direction includes a first direction (X direction), a second direction (Y direction) perpendicular to the first direction, and a third direction (Z direction) perpendicular to the first direction and the second direction. Yes. The acceleration sensor 21 outputs the total value of gravitational acceleration in the X, Y, and Z directions as a detected vibration level. When this detected vibration level is higher than a set vibration level (for example, 1 G), a head retraction instruction is supplied to the head retraction processing unit 20.
Furthermore, in the present invention, the acceleration sensor 21 described above is used to determine whether or not to perform an abnormal sound search process described later.

The inspection device 30 includes an inspection control unit 31. The inspection control unit 31 is realized by hardware (example: circuit) and software (example: computer program).
The inspection control unit 31 outputs a head withdrawal instruction to the head withdrawal processing unit 20 when the detected vibration level measured by the acceleration sensor 21 is higher than the set vibration level.
In the inspection control unit 31, the detected vibration level measured by the acceleration sensor 21 is equal to or lower than a preset set vibration level, and the detected vibration level is selected from the plurality of components 10-1 to 10-N. If it matches the corresponding abnormal noise vibration level representing the abnormal noise generated by the specific component which is at least one component, the fact that the abnormal noise is generated by the specific component is output to the output device 5 to notify the user. .

  FIG. 4 shows the configuration of the inspection control unit 31 of the inspection device 30. The inspection control unit 31 includes an inspection database 33 as a storage unit.

  As shown in FIG. 5, the inspection database 33 includes a plurality of abnormal sound vibration levels 41-1 to 41-M (M is an integer of 1 or more), which are the above-described abnormal sound vibration levels representing different abnormal sounds. And a plurality of pieces of specific component information 42-1 to 42-M representing the specific components that generate the abnormal noise, and a plurality of pieces of abnormal information representing the cause of the abnormal noise generated by the specific component.

  The specific component represented by each of the plurality of specific component information 42-1 to 42-M represents at least one of the plurality of components 10-1 to 10-N. For example, the specific component information 42-1 represents the HDD 10-2 as the specific component that generates the abnormal noise represented by the abnormal vibration level 41-1. The specific part information 42-2 represents the execution unit 10-1 as a specific part that generates the abnormal sound represented by the abnormal vibration level 41-2. The specific component information 42-3 represents the execution unit 10-1 and the HDD 10-2 as specific components that generate the abnormal sound represented by the abnormal vibration level 41-3. The specific component information 42-4 represents the fan 10-N as the specific component that generates the abnormal noise represented by the abnormal vibration level 41-4. The specific component information 42-5 represents the HDD 10-2 and the fan 10-N as specific components that generate the abnormal noise represented by the abnormal vibration level 41-5. The specific part information 42-6 represents the execution unit 10-1 and the fan 10-N as specific parts that generate the abnormal sound represented by the abnormal vibration level 41-6. The specific component information 42-7 represents the execution unit 10-1, the HDD 10-2, and the fan 10-N as specific components that generate the abnormal noise represented by the abnormal vibration level 41-7.

  The inspection control unit 31 further includes a vibration determination unit 34, a component identification unit 35, and a notification unit 36.

  The vibration determination unit 34 receives the detected vibration level measured by the acceleration sensor 21 and compares the detected vibration level with a preset set vibration level. The set vibration level represents the vibration inside the housing 2. As a result of the comparison, when the detected vibration level is higher than the set vibration level, the vibration determination unit 34 outputs a head retraction instruction to the head retraction processing unit 20. On the other hand, when the detected vibration level is equal to or lower than the set vibration level, the vibration determination unit 34 outputs an abnormal sound search processing instruction to the component specifying unit 35.

When the part specifying unit 35 receives an abnormal sound search processing instruction from the vibration determining unit 34, the part specifying unit 35 performs an abnormal sound search process.
In the abnormal sound search process, the component identifying unit 35 acquires a corresponding abnormal vibration level that matches the detected vibration level from among the plurality of abnormal vibration levels 41-1 to 41-M stored in the inspection database 33. To do. Next, the component identification unit 35 acquires corresponding specific component information corresponding to the above-described corresponding abnormal vibration level from among the plurality of specific component information 42-1 to 42-M stored in the inspection database 33. . As a result, the specific component represented by the corresponding specific component information is specified. The component identifying unit 35 acquires corresponding abnormality information corresponding to the corresponding abnormal noise vibration level from among a plurality of abnormality information stored in the inspection database 33. The component identification unit 35 outputs the correspondence identification component information and the correspondence abnormality information to the notification unit 36.
When the notification unit 36 receives the correspondence specific component information and the correspondence abnormality information, the notification unit 36 outputs to the output device 5 that the abnormal sound is generated by the specific component represented by the correspondence specific component information, and notifies the user. At this time, the display device 3 displays that the abnormal noise is generated on a screen representing the corresponding specific component information and the corresponding abnormality information. The sound output device 4 outputs that the abnormal sound is generated by sound indicating the corresponding specific part information and the corresponding abnormality information.

  The operation of the information processing apparatus (computer 1) according to the first embodiment of the present invention will be described with reference to FIG. Here, it is assumed that the specific components that generate abnormal noise are the HDD 10-2 and the fan 10-N.

  First, the computer 1 is operated by a user operation. At this time, the execution unit 10-1 executes normal operation processing (step S1). In the normal operation process, the execution unit 10-1 executes the computer program 13 and controls the head 12 so that data is written to and read from the memory area 14 of the HDD 10-2. At this time, the execution unit 10-1 displays a screen representing the execution result (including the standby screen and the calculation result) of the computer program 13 on the display device 3.

  At this time, the acceleration sensor 21 measures a detected vibration level (total value of gravitational acceleration in the X, Y, and Z directions) when the housing 2 vibrates and outputs the measured vibration level to the inspection apparatus 30 (step S2).

  The vibration determination unit 34 of the inspection device 30 receives the detected vibration level measured by the acceleration sensor 21, and compares the detected vibration level with a preset set vibration level (step S3). As a result of the comparison, it is assumed that the detected vibration level is not less than or equal to the set vibration level (step S3-NO). In this case, the vibration determination unit 34 outputs a head withdrawal instruction to the head withdrawal processing unit 20.

  The head withdrawal processing unit 20 executes head withdrawal processing in the HDD 10-2 according to the head withdrawal instruction (step S8). That is, the head 12 is retracted from the disk 11.

  Thereafter, the head withdrawal processing unit 20 notifies the user that the head withdrawal processing has been executed. For example, the head retraction processing unit 20 notifies the user as an error notification by turning on an LED (not shown) attached to the housing 2 or generating a warning sound. Alternatively, the head evacuation processing unit 20 displays a screen indicating that the head evacuation processing has been executed on the display device 3 or outputs a sound indicating that the head evacuation processing has been executed to the audio output device 4. To notify the user.

  The vibration determination unit 34 of the inspection device 30 receives the detected vibration level measured by the acceleration sensor 21, and compares the detected vibration level with a preset set vibration level (step S3). As a result of comparison, it is assumed that the detected vibration level is equal to or lower than the set vibration level (step S3-YES). In this case, the vibration determination unit 34 outputs an abnormal sound search processing instruction to the component identification unit 35.

  When the component specifying unit 35 receives an abnormal sound search processing instruction from the vibration determining unit 34, the component specifying unit 35 performs an abnormal sound search process (step S4).

  In the abnormal sound search process, the component specifying unit 35 of the inspection apparatus 30 corresponds to the corresponding abnormal sound that matches the detected vibration level from among the plurality of abnormal vibration levels 41-1 to 41-M stored in the inspection database 33. The vibration level 41-5 is acquired (step S4-YES). The component identification unit 35 corresponds to the corresponding specific component information 42-5 corresponding to the corresponding abnormal vibration level 41-5 from among the plurality of specific component information 42-1 to 42-M stored in the inspection database 33. To get. At the same time, the component identification unit 35 acquires corresponding abnormality information corresponding to the corresponding abnormal vibration level 41-5 from the plurality of abnormality information stored in the inspection database 33. The component identification unit 35 outputs the correspondence identification component information 42-5 and the correspondence abnormality information to the notification unit 36 (step S5).

  When the notification unit 36 of the inspection apparatus 30 receives the correspondence specific component information 42-5 and the correspondence abnormality information, an abnormal sound is generated by the specific components 10-2 and 10-N represented by the correspondence specific component information 42-5. Is output to the output device 5 to notify the user. At this time, the notification unit 36 displays a screen representing the correspondence specific component information 42-5 and the correspondence abnormality information on the display device 3, and outputs a voice representing the correspondence specific component information 42-5 and the correspondence abnormality information to the voice output device. 4 is output. Thereby, the user can know that abnormal noise is generated by the HDD 10-2 and the fan 10-N (step S6).

The execution unit 10-1 monitors whether or not to continue the operation of the computer 1 (step S7). When the computer 1 is in operation (step S7-NO), the execution unit 10-1 executes step S1 described above. When the user gives an instruction to end the operation of the computer 1 (step S7—YES), the execution unit 10-1 ends the operation of the computer 1.
In the abnormal sound search process, the component specifying unit 35 of the inspection device 30 corresponds to the detected vibration level from the plurality of abnormal sound vibration levels 41-1 to 41-M stored in the inspection database 33. When the abnormal noise vibration level cannot be acquired (step S4-NO), the user is notified only of the occurrence of the abnormal noise without specifying the corresponding component (step S6).

  According to the information processing apparatus (computer 1) according to the first embodiment of the present invention, the inspection apparatus 30 performs the abnormal sound search process when the detected vibration level when the casing 2 vibrates is equal to or lower than the set vibration level. To do. In the abnormal sound search process, the inspection device 30 has a detected abnormal vibration level corresponding to an abnormal noise vibration level that is generated by a specific component that is at least one of the components 10-1 to 10-N. If it matches, the fact that abnormal noise is generated by the specific part is notified. Thereby, an abnormal sound generated from the inside of the computer 1 can be detected, and the user can know that the abnormal sound has occurred and take measures such as arranging for repair of the computer 1.

  According to the information processing apparatus (computer 1) according to the first embodiment of the present invention, when the detected vibration level is higher than the set vibration level, the head retracting unit 20 executes the head retracting process as a known technique. . Conventionally, a sensor that measures the detected vibration level is used to determine whether or not to perform the head retracting process. As this sensor, the acceleration sensor 21 is exemplified. As described above, according to the computer 1, the abnormal sound search process can be realized by adding only the inspection device 30 to the conventional computer.

  According to the information processing apparatus (computer 1) according to the first embodiment of the present invention, in order to perform the abnormal sound search process, various patterns of abnormal vibration levels 41-1 to 41-M and the specific component information 42 described above are used. By storing −1 to 42-M in the inspection database 33, it is possible to specify a specific component that generates abnormal noise.

(Second Embodiment)
FIG. 7 shows the configuration of the information processing apparatus according to the second embodiment of the present invention. The same explanation as above is omitted.
The information processing apparatus according to the second embodiment is a computer 1, and further includes a sound collection microphone 22 that is a collection unit with respect to the configuration of the first embodiment. The sound collecting microphone 22 is provided in the housing 2.

The sound collection microphone 22 is attached to the HDD 10-2 in the housing 2, for example. The sound collection microphone 22 collects a collection vibration level representing a sound generated by the plurality of components 10-1 to 10-N. In the present invention, the sound collecting microphone 22 is used to perform the above-described abnormal sound search processing.
Therefore, the inspection control unit 31 of the inspection apparatus 30 has the vibration level measured by the acceleration sensor 21 equal to or lower than the set vibration level, and the collected vibration level collected by the sound collection microphone 22 matches the above-described abnormal vibration level. In this case, the fact that an abnormal noise is generated by the specific part is output to the output device 5 to notify the user.

The component identification unit 35 receives the collected vibration level collected by the sound collection microphone 22. In addition, when the part specifying unit 35 receives an abnormal sound search processing instruction from the vibration determining unit 34, the part specifying unit 35 performs an abnormal sound search process.
In the abnormal sound search process, the component identification unit 35 acquires a corresponding abnormal vibration level that matches the collected vibration level from among the plurality of abnormal vibration levels 41-1 to 41-M stored in the inspection database 33. To do.

  The operation of the information processing apparatus (computer 1) according to the second embodiment of the present invention will be described with reference to FIG. Here, it is assumed that the specific components that generate abnormal noise are the HDD 10-2 and the fan 10-N.

  First, the normal operation process (step S1) described above is executed. At this time, the acceleration sensor 21 measures the detected vibration level when the housing 2 vibrates and outputs the measured vibration level to the inspection device 30. At the same time, the sound collecting microphone 22 collects the collected vibration level representing the sound generated by the plurality of components 10-1 to 10-N and outputs the collected vibration level to the inspection device 30 (step S2).

  The vibration determination unit 34 of the inspection device 30 receives the detected vibration level measured by the acceleration sensor 21, and compares the detected vibration level with a preset set vibration level (step S3). As a result of comparison, it is assumed that the detected vibration level is equal to or lower than the set vibration level (step S3-YES). In this case, the vibration determination unit 34 outputs an abnormal sound search processing instruction to the component identification unit 35.

  The component identification unit 35 receives the collected vibration level collected by the sound collection microphone 22. Further, when the part specifying unit 35 receives an abnormal sound search processing instruction from the vibration determining unit 34, the part specifying unit 35 performs an abnormal sound search process (step S4).

  In the abnormal sound search process, the component specifying unit 35 of the inspection apparatus 30 selects the corresponding abnormal sound that matches the collected vibration level from among the plurality of abnormal vibration levels 41-1 to 41-M stored in the inspection database 33. The vibration level 41-5 is acquired (step S4-YES). The component specifying unit 35 refers to the inspection database 33 and acquires the corresponding specified component information 42-5 and the corresponding abnormality information corresponding to the corresponding abnormal noise vibration level 41-5. The component identification unit 35 outputs the correspondence identification component information 42-5 and the correspondence abnormality information to the notification unit 36 (step S5).

  When the notification unit 36 of the inspection apparatus 30 receives the correspondence specific component information 42-5 and the correspondence abnormality information, an abnormal sound is generated by the specific components 10-2 and 10-N represented by the correspondence specific component information 42-5. Is output to the output device 5 to notify the user (step S6).

  The information processing apparatus (computer 1) according to the second embodiment of the present invention has the same effect as the first embodiment. According to the computer 1, an abnormal sound search process can be realized by adding only the inspection device 30 and the sound collecting microphone 22 to the conventional computer.

(Third embodiment)
FIG. 8 shows the configuration of the information processing apparatus according to the third embodiment of the present invention. The same explanation as above is omitted.
The information processing apparatus according to the third embodiment is an inspection apparatus 30 of the computer 1 and includes an acceleration sensor 21 and an inspection control unit 31.

The inspection apparatus 30 of the present invention is connected to the computer 1 when the computer 1 is manufactured and at the time of a test before shipment.
When the vibration level measured by the acceleration sensor 21 is equal to or lower than the set vibration level and the detected vibration level matches the above-described abnormal noise vibration level, the inspection control unit 31 has a plurality of components 10-1 to 10-. The fact that abnormal noise is generated by a specific part representing at least one part of N is output to the output device 5 and notified to the person in charge of the test. The fact that abnormal noise has occurred indicates that the computer 1 is defective. In this case, the computer 1 cannot be shipped.

  Thereby, according to the information processing apparatus (inspection apparatus 30) by 3rd Embodiment of this invention, the abnormal noise which generate | occur | produces from the inside of the computer 1 can be detected, and the quality goods and fault regarding abnormal noise can be detected at the time of the test before shipment. Good products can be identified.

Further, the inspection apparatus 30 of the present invention is connected to a computer 1 that does not have the function of the inspection apparatus 30 built therein.
When the vibration level measured by the acceleration sensor 21 is equal to or lower than the set vibration level and the detected vibration level matches the above-described abnormal noise vibration level, the inspection control unit 31 has a plurality of components 10-1 to 10-. The fact that an abnormal sound is generated by a specific part representing at least one part of N is output to the output device 5 to notify the user.

  Thus, according to the information processing apparatus (inspection apparatus 30) according to the third embodiment of the present invention, abnormal noise generated from the inside of the computer 1 even for the computer 1 that does not have the function of the inspection apparatus 30 built therein. And the user knows that an abnormal sound is occurring and can take measures such as arranging for repair of the computer 1.

  Note that the information processing apparatus (inspection apparatus 30) according to the third embodiment of the present invention may further include a sound collection microphone 22 as in the second embodiment described above. In this case, the sound collecting microphone 22 is provided in the housing 2. When the vibration level measured by the acceleration sensor 21 is equal to or lower than the set vibration level and the collected vibration level collected by the sound collection microphone 22 matches the above-described abnormal sound vibration level, the inspection control unit 31 has a plurality of components 10. It outputs to the output device 5 that abnormal noise is generated by a specific part representing at least one of -1 to 10-N, and notifies the user.

FIG. 1 shows the configuration of an information processing apparatus (computer 1) according to the present invention. (First embodiment) FIG. 2 is a diagram for explaining the head withdrawal process. (First to third embodiments) FIG. 3 is a diagram for explaining the vibration level measured by the acceleration sensor 21. (First to third embodiments) FIG. 4 shows the configuration of the inspection control unit 31 of the inspection device 30. (First to third embodiments) FIG. 5 shows the inspection database 33. (First to third embodiments) FIG. 6 is a flowchart showing the operation of the information processing apparatus of the present invention. (First to third embodiments) FIG. 7 shows the configuration of the information processing apparatus (computer 1) of the present invention. (Second Embodiment) FIG. 8 shows the configuration of the information processing apparatus (inspection apparatus 30) of the present invention. (Third embodiment)

Explanation of symbols

1 Computer 2 Case (computer body)
3 Display device 4 Audio output device (speaker)
5 Output Device 10-1 to 10-N Multiple Components 10-1 Execution Unit 10-2 Hard Disk Drive (HDD)
10-N Cooling Fan 11 Disk 12 Head 13 Computer Program 14 Memory Area 20 Head Retraction Processing Unit 21 Acceleration Sensor 22 Sound Collection Microphone 30 Inspection Device 31 Inspection Control Unit 33 Vibration Judgment Database 34 Vibration Judgment Unit 35 Component Identification Unit 36 Notification Unit 41-1 to 41-M Vibration level 42-1 to 42-M Part information

Claims (6)

A detector for detecting a detecting vibration level when the apparatus body with a plurality of components to vibrate,
A determination unit for determining whether or not the detected vibration level is equal to or lower than a set vibration level representing vibration inside the apparatus main body;
When the detected vibration level is equal to or lower than the set vibration level , a specific component representing at least one component of the plurality of components is identified, and a component identifying unit that outputs corresponding specific component information representing the specific component; An information processing apparatus comprising: A storage unit storing a plurality of abnormal vibration levels each representing the different noise and a plurality of specific component information representing the specific component that generates the abnormal noise;
The component specifying unit is
When the detected vibration level is equal to or lower than the set vibration level, by acquiring the corresponding specific component information corresponding to the detected vibration level from the plurality of specific component information stored in the storage unit, The information processing apparatus according to claim 1 , wherein a specific part is specified. A collection unit for collecting a collection vibration level representing sound generated by the plurality of parts;
A storage unit storing a plurality of abnormal vibration levels representing the different abnormal noises and a plurality of specific component information representing the specific components generating the abnormal noise,
The component specifying unit is
When the detected vibration level is equal to or lower than the set vibration level, the corresponding specific component information corresponding to the collected vibration level collected by the collection unit from the plurality of specific component information stored in the storage unit by acquiring the information processing apparatus according to claim 1, wherein the identifying the specific parts. Wherein the detection unit, the information processing apparatus according to any one of claims 1-3, characterized in that an acceleration sensor. The information processing apparatus according to any one of claims 1-4, characterized by further comprising a display device for displaying the corresponding specific component information. A method for inspecting an information processing apparatus including an apparatus main body including a plurality of components,
A step of the main assembly detects the detection vibration level for vibrations,
Determining whether the detected vibration level is less than or equal to a set vibration level representing vibration inside the apparatus body;
When the detected vibration level is equal to or lower than the set vibration level , the method includes a step of specifying a specific component representing at least one of the plurality of components and outputting corresponding specific component information representing the specific component. A method for inspecting an information processing apparatus.

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