JP2012048303A - Vibration responding system, monitoring component, management terminal, control method and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To cope with vibration generated at a computer.SOLUTION: A vibration responding system comprises a vibration measurement component 120, a monitoring component 110 and a management terminal 200. The monitoring component 110 comprises: a measurement value reading out part; a measurement value data transmission part; a measurement value determination part for determining whether a vibration measurement value exceeds a threshold value or not; and a warning message data transmission part for transmitting data indicating a message for warning an administrator about the fact that the vibration measurement value exceeds the threshold value to the management terminal 200 when the measurement value determination part determines that the vibration measurement value exceeds the threshold value. The management terminal 200 comprises: a measurement value data receiving part for receiving data indicating the vibration measurement value; a measurement value data output part for outputting the data received by the measurement value data receiving part to display means; a warning message data receiving part for receiving the data indicating the warning message to the administrator; and a warning message data output part for outputting the data received by the warning message data receiving part.

Description

  The present invention relates to a vibration handling system, a monitoring component, a management terminal, a control method, and a program. In particular, the present invention relates to a vibration response system that responds to vibration generated in a computer, a monitoring component that is provided in the computer and monitors a vibration measurement component that measures the vibration of a movable part of the computer, and is connected to the computer via a communication line. The present invention relates to a management terminal, a control method for controlling the monitoring component, and the management terminal, and a program for the monitoring component and the management terminal.

  Devices such as a power supply, a fan, and a hard disk drive (HDD) installed in the server are accompanied by a rotational motion and the like when driven. These movements generate vibrations in the server. In recent years, there are cases in which performance degradation or failure occurs due to vibration from a device over a long period of time, which is a major issue in terms of quality and maintenance.

  Conventional vibration detection systems are used for the purpose of detecting vibrations that are generated by momentarily applying a large external force. For example, in Patent Document 1, in order to prevent data destruction due to the head damaging the storage surface during disk access, a vibration sensor is attached to the disk device, and when acceleration in the direction perpendicular to the storage surface is detected, the controller A technique for retracting the head is described.

Japanese Patent No. 2679584

  However, the conventional techniques have the following problems. The first problem is to detect only the acceleration in the direction perpendicular to the memory surface. Since a device mounted on the server may accompany acceleration in the horizontal direction, vibration may not be detected. The second problem is that vibration cannot be detected unless a momentary large acceleration is applied to the memory surface. Microvibration cannot be constantly monitored. The third problem is that it is impossible to notify the administrator who uses the disk that the head has been retracted. The administrator cannot grasp the performance degradation or failure of the disk due to vibration.

  In order to solve the above-described problem, according to the first aspect of the present invention, there is provided a vibration response system for vibration generated in a computer, the vibration measurement being provided in the computer and measuring the vibration of a movable part of the computer. A monitoring component that is provided in the computer and monitors the vibration measurement component; and a management terminal that is connected to the computer via a communication line. The monitoring component is a vibration measurement value measured by the vibration measurement component. Is read from the vibration measurement component, the measurement value data transmitting unit for transmitting the data indicating the vibration measurement value read by the measurement value reading unit to the management terminal, and the vibration read by the measurement value reading unit When the measured value determination unit determines whether or not the measured value exceeds the threshold value, and the measured value determination unit determines that the measured vibration value exceeds the threshold value, this is notified to the administrator. A warning message data transmission unit that transmits data indicating a message for notification to the management terminal, and the management terminal receives data indicating the vibration measurement value transmitted from the monitoring component A reception unit, a measurement value data output unit that outputs data received by the measurement value data reception unit to the display means, and a warning message data reception unit that receives data indicating a warning message to the administrator transmitted from the monitoring component; A warning message data output unit for outputting data received by the warning message data receiving unit.

  According to the second aspect of the present invention, the monitoring component provided in the computer for monitoring the vibration measurement component for measuring the vibration of the movable component of the computer, the vibration measurement value measured by the vibration measurement component, A measurement value reading unit that reads from the vibration measurement component, a measurement value data transmission unit that transmits data indicating the measurement value of vibration read by the measurement value reading unit to a management terminal connected to the computer via a communication line; When the measurement value determination unit determines whether or not the vibration measurement value read by the measurement value reading unit exceeds the threshold value, and when the measurement value determination unit determines that the vibration measurement value exceeds the threshold value, A warning message data transmission unit that transmits data indicating a message for warning the administrator to the management terminal.

  According to a third aspect of the present invention, there is provided a control method for controlling a monitoring component that is provided in a computer and monitors a vibration measurement component that measures the vibration of a movable component of the computer, the vibration measured by the vibration measurement component. The measurement value reading stage for reading out the measured value from the vibration measurement component, and the data indicating the vibration measurement value read in the measurement value reading stage are transmitted to the management terminal connected to the computer via the communication line. Measurement value transmission stage, measurement value determination stage for determining whether the vibration measurement value read in the measurement value reading stage has exceeded the threshold value, and measurement if the vibration measurement value has exceeded the threshold value A warning message data transmission step of transmitting, to the management terminal, data indicating a message for warning the administrator to that effect when it is determined in the value determination step.

  According to a fourth aspect of the present invention, there is provided a program for a monitoring component that is provided in a computer and monitors a vibration measurement component that measures the vibration of a movable component of the computer, and the vibration measurement component measures the monitoring component. A measurement value reading unit that reads the measured value of vibration from the vibration measurement component, and a measurement that transmits data indicating the vibration measurement value read by the measurement value reading unit to a management terminal connected to the computer via a communication line Value data transmission unit, measurement value determination unit that determines whether the vibration measurement value read by the measurement value reading unit has exceeded the threshold value, and measurement value determination unit determines that the vibration measurement value has exceeded the threshold value In such a case, data indicating a message for warning the administrator to that effect is caused to function as a warning message data transmission unit that transmits data to the management terminal.

  According to the fifth aspect of the present invention, the monitoring terminal is a management terminal connected to a computer via a communication line, and monitors the vibration measurement component that is provided in the computer and measures the vibration of the movable component of the computer. A measurement value data receiving unit that receives data indicating measurement values of vibrations of moving parts of a computer transmitted from the computer, a measurement value data output unit that outputs data received by the measurement value data reception unit to the display means, and monitoring Data received by the warning message data receiving unit that receives data indicating a message that warns the administrator that the measured value of vibration of the movable part has exceeded the threshold value, and the data received by the warning message data receiving unit. A warning message data output unit.

  According to a sixth aspect of the present invention, there is provided a control method for controlling a management terminal connected to a computer via a communication line, the vibration measurement component being provided in a computer and measuring the vibration of a movable part of the computer. A measurement value data reception stage for receiving data indicating a measurement value of vibration of a movable part of a computer transmitted from a monitoring part for monitoring the measurement value, and a measurement value for outputting the data received in the measurement value data reception stage to the display means A data output stage, a warning message data reception stage for receiving data indicating a message sent from the monitoring part to warn the administrator that the measured value of the vibration of the movable part has exceeded the threshold, and the warning message data A warning message data output stage for outputting the data received in the reception stage.

  According to a seventh aspect of the present invention, there is provided a program for a management terminal connected to a computer via a communication line, the management terminal being provided in the computer and measuring vibrations of movable parts of the computer. A measurement value data receiving unit that receives data indicating a measurement value of vibration of a moving part of a computer transmitted from a monitoring component that monitors the vibration measurement component, and a measurement that outputs the data received by the measurement value data receiving unit to the display means Value data output unit, warning message data receiving unit that receives data indicating a message that warns the administrator that the measured value of vibration of moving parts has exceeded the threshold value, and received warning message data Function as a warning message data output unit that outputs data received by the unit.

  In addition, as described above, the summary of the invention does not enumerate all necessary features of the present invention, and sub-combinations of these feature groups can also be the invention.

  As is clear from the above description, in the present invention, a factor causing performance degradation or failure due to vibration above a certain level is detected early on in the device mounted in the server and prevented beforehand. be able to. The reason is to monitor the vibration sensor attached to the device and report to the administrator.

It is a figure which shows an example of the utilization environment of the vibration response system which concerns on one Embodiment. It is a figure which shows an example of the block configuration of BMC110. It is a figure which shows an example of the block configuration of the personal computer. It is a figure which shows an example of the processing flow in a vibration response system. It is a figure which shows another example of the processing flow in a vibration response system. 2 is a diagram illustrating an example of a hardware configuration of a personal computer 200. FIG.

  Hereinafter, the present invention will be described through embodiments of the invention. However, the following embodiments do not limit the invention according to the scope of claims, and are combinations of features described in the embodiments. Not all are essential to the solution of the invention.

  Referring to FIG. 1, there is shown a vibration detection system using a vibration sensor as one embodiment of the present invention. In the figure, the present invention includes a BMC (Baseboard Management Controller) 110, a HDD (Hard Disk Drive) 130, a power supply unit 140, a fan 150, vibration sensors 120a to 120c (hereinafter collectively referred to as vibration sensors 120), and a remote management port. The server 100 includes a personal computer 200 and a communication line 300 including a network cable.

  The vibration sensors 120a to 120c are connected to each device of the HDD 130, the power supply unit 140, and the fan 150 mounted on the server 100, and measure vibration generated from each device at regular intervals.

  The BMC 110 monitors the vibration sensors 120a to 120c, and reads the vibration measurement values measured by the vibration sensors 120a to 120c at regular intervals. When the measured value exceeds a reference value preset in the BMC 110, a warning message is displayed on the display of the personal computer 200, and an e-mail is transmitted to the administrator's mail address registered in the personal computer 200.

  The personal computer 200 receives the measurement value stored in the BMC 110 via the communication line 300. A virtual vibration display panel is displayed on the screen of the personal computer 200, and the measured value can be displayed there. Further, the personal computer 200 has a mail transmission function. When the measured value exceeds a reference value preset in the BMC 110 by registering the administrator's mail address, the E-mail address is registered for the registered mail address. send mail.

  FIG. 2 shows an example of a block configuration of the BMC 110. The BMC 110 includes a measurement value reading unit 111, a measurement value data transmission unit 112, a measurement value determination unit 113, a warning message data transmission unit 114, and a movable part control unit 115. The function and operation of each component will be described below.

  The measurement value reading unit 111 reads the vibration measurement value measured by the vibration sensor 120 from the vibration sensor 120. Specifically, when the measurement value reading unit 111 reads the measurement value of the vibration measured by the vibration sensor 120 from the vibration sensor 120, the measurement value data transmission unit 112 and the measurement value data are displayed as data indicating the measurement value of the vibration. The value is sent to the value determination unit 113.

  The measurement value data transmission unit 112 transmits data indicating the vibration measurement value read by the measurement value reading unit 111 to the personal computer 200. Specifically, when the measurement value data transmission unit 112 receives data indicating the measurement value of vibration from the measurement value reading unit 111, the measurement value data transmission unit 112 transmits the data to the personal computer 200.

  The measurement value determination unit 113 determines whether or not the vibration measurement value read by the measurement value reading unit 111 exceeds a threshold value. Specifically, when the measurement value determination unit 113 receives data indicating the vibration measurement value from the measurement value reading unit 111, the measurement value determination unit 113 determines whether or not the vibration measurement value indicated by the data has exceeded a threshold value. To do. Then, the measurement value determination unit 113 sends data indicating the determination result to the warning message data transmission unit 114 and the movable part control unit 115.

  When the measurement value determination unit 113 determines that the vibration measurement value has exceeded the threshold value, the warning message data transmission unit 114 transmits data indicating a message for warning the administrator to the personal computer 200. To do. Specifically, the warning message data transmission unit 114 receives data indicating the determination result of determining whether or not the vibration measurement value exceeds the threshold value from the measurement value determination unit 113. If the determination result indicated by the data is a determination result indicating that the vibration measurement value has exceeded the threshold value, the warning message data transmission unit 114 indicates that the vibration measurement value has exceeded the threshold value. Data indicating a message for warning the administrator is transmitted to the personal computer 200.

  When the measured value determination unit 113 determines that the vibration measurement value exceeds the threshold value, the movable part control unit 115 is configured so that the HDD 130, the power supply unit 140, or the vibration of the power supply unit 140 or 150 is suppressed. Or 150 is controlled. Specifically, the movable part control unit 115 receives data indicating the determination result of determining whether or not the vibration measurement value exceeds the threshold value from the measurement value determination unit 113. When the determination result indicated by the data is a determination result that the measured value of vibration exceeds the threshold value, the movable part control unit 115 suppresses vibration of the HDD 130, the power supply unit 140, or 150. The HDD 130 and the power supply unit 140 or 150 are controlled.

  FIG. 3 shows an example of a block configuration of the personal computer 200. The personal computer 200 includes a measured value data receiving unit 201, a measured value data output unit 202, a warning message data receiving unit 203, and a warning message data output unit 204. The function and operation of each component will be described below.

  The measurement value data receiving unit 201 receives data indicating the measurement value of vibration transmitted from the BMC 110. Specifically, when the measured value data receiving unit 201 receives data indicating the measured value of vibration from the BMC 110, the measured value data receiving unit 201 sends the data to the measured value data output unit 202.

  The measurement value data output unit 202 outputs the data received by the measurement value data reception unit 201 to the display. Specifically, when the measurement value data output unit 202 receives data indicating the measurement value of vibration from the measurement value data reception unit 201, the measurement value data output unit 202 outputs the data to the display.

  The warning message data receiving unit 203 receives data indicating a warning message for the administrator transmitted from the BMC 110. Specifically, when the warning message data receiving unit 203 receives from the BMC 110 data indicating a message warning the administrator that the vibration measurement value has exceeded the threshold value, the warning message data receiving unit 203 outputs the data to the warning message data. Send to section 204.

  The warning message data output unit 204 outputs the data received by the warning message data receiving unit 203. Specifically, when the warning message data output unit 204 receives data indicating a warning message for the administrator from the warning message data receiving unit 203, the warning message data output unit 204 outputs the data. For example, the warning message data output unit 204 outputs data indicating the warning message for the administrator so that the warning message for the administrator is displayed on the display. Further, for example, the warning message data output unit 204 outputs data indicating a warning message for the administrator so that the warning message for the administrator is transmitted to the mail address of the administrator.

  Next, the operation of the present embodiment will be described in detail with reference to FIG. The vibration sensors 120a to 120c measure the vibrations of the devices 12 to 14 connected to the sensors at regular intervals, and store the measurement values in a buffer inside the sensor (step S1).

  The BMC 110 accesses the vibration sensors 120a to 120c, and acquires the measured vibration values from the internal buffers of the vibration sensors 120a to 120c (step S2).

  When the measurement value is requested from the personal computer 200 via the communication line 300, the BMC 110 transmits the measurement value to the personal computer 200 via the communication line 300 (step S3).

  The measurement value transmitted from the BMC 110 to the personal computer 200 is displayed on the virtual vibration display panel displayed on the screen of the personal computer 200 (step S4).

  The BMC 110 compares the reference value set / registered via the personal computer 200 with the measured value read from the vibration sensors 120a to 120c (step S5). If the measured value exceeds the reference value, the communication value is passed through the communication line 300. Then, a warning message is transmitted to the personal computer 200 (step S6).

  The warning message transmitted from the BMC 110 is displayed on the virtual vibration display panel displayed on the screen of the personal computer 200 (step S7).

  In addition, the personal computer 200 transmits an e-mail in which a warning message is written to a pre-registered administrator's e-mail address (step S8).

  Thereafter, when a predetermined time elapses, the BMC 110 accesses the vibration sensors 120a to 120c and acquires measurement values (S9).

  If the reference value registered in the BMC 110 does not exceed the measured value, the vibration sensors 120a to 120c are accessed after a predetermined time has elapsed, and the measured value is acquired (S10).

  Next, the operation of this embodiment will be described using a specific example. The administrator inputs and registers the vibration reference value (here, 50 dB) for the HDD 130, the power supply unit 140, and the fan 150 mounted on the server from the management personal computer 200. The registered reference value is stored in the BMC 110 via the communication line 300 for comparison with the vibration measurement values measured by the vibration sensors 120a to 120c. The administrator also registers his / her e-mail address in the personal computer 200.

  On the other hand, the vibration sensor 120 a measures vibration from the HDD 130, 15 b measures vibration from the power supply unit 140, and 15 c measures vibration from the fan 150. A measured value of the HDD 130 read at a certain time from the vibration sensor 120a is 40 dB. The BMC 110 accesses the vibration sensor 120a and acquires the measurement value 40 dB.

  In order to display the measured value on the virtual vibration display panel, the personal computer 200 requests the measured value of the HDD 130 acquired from the vibration sensor 120a by the BMC 110 via the communication line 300. In response to this request, the BMC 110 transmits a measured value 40 dB of the HDD 130 for a certain period of time to the personal computer 200 via the communication line 300. The transmitted measurement value is stored in the personal computer 200, and the measurement value 40dB is displayed on the virtual vibration display panel on the screen of the personal computer 200.

  The measured value of the power supply unit 140 read at a certain time from the vibration sensor 120b is 60 dB. The BMC 110 accesses the vibration sensor 120b and obtains this measured value 60 dB. The BMC 110 compares the vibration reference value (50 dB) registered in advance with the measurement value (60 dB), and confirms that the measurement value exceeds the reference value. Send a warning message indicating that the value has been exceeded. The warning message is stored in the personal computer 200, and the message is displayed on the virtual vibration display panel on the screen of the personal computer 200.

  Further, when receiving the warning message, the personal computer 200 transmits the message to the registered administrator's e-mail address.

  Next, another embodiment of the present invention will be described in detail with reference to the drawings. Referring to FIG. 5, the present embodiment is different in that the FAN is controlled using the vibration sensor 11 c when the measured values measured by the vibration sensors 11 a to 11 c exceed a predetermined reference value.

  The BMC 110 compares the reference value set / registered from the personal computer 200 with the measurement value read from the vibration sensors 120a to 120c (step S5). If the measurement value exceeds the reference value, the vibration sensor 11c is used to determine the FAN. The rotational speed is controlled (step 11).

  Thereby, the vibration accompanying the rotational movement of the fan can be suppressed. Further, resonance with the HDD 11 and the power source 12 is prevented, and vibration of the HDD 11 and the power source 12 is suppressed.

  Note that the vibration reference value set in the BMC 110 from the personal computer 200 can be changed from one level to multiple levels, and a plurality of management levels can be provided. Then, an operation such as warning or fan control according to each reference value can be set. For example, the vibration reference value is set in four stages of 50 dB, 60 dB, 70 dB, and 80 dB. Here, if the measured value exceeds 50 dB, a message is displayed on the virtual vibration display panel. If it exceeds 60 dB, the message is sent to the registered administrator's e-mail address. If it exceeds 70 dB, the fan control is performed. When the vibration is suppressed and exceeds 80 dB, the server 100 is automatically stopped. In this way, a plurality of management operations are combined according to each level to perform complex management.

  In addition, in order to prevent resonance due to a plurality of devices mounted in the server 100, when the vibration becomes extremely large within a certain time, not only simply reducing the fan speed and suppressing the vibration, but also adjoining A difference is made in the rotational speed of the fan to be controlled, or the rotational speed of the HDD is controlled. When resonance is generated by a plurality of devices, the vibration becomes very large. The BMC 110 records the measurement value of vibration measured by the sensor 120 at regular intervals, and compares the previous measurement value with the current measurement value. If the current measurement value is extremely larger than the previous measurement value, it is considered that resonance has occurred, and the resonance is suppressed by making a difference in the rotation speed of adjacent fans or by controlling the rotation speed of the HDD. To do.

  FIG. 6 shows an example of the hardware configuration of the personal computer 200. The personal computer 200 includes a CPU (Central Processing Unit) peripheral part, an input / output part, and a legacy input / output part. The CPU peripheral section includes a CPU 802, a RAM (Random Access Memory) 803, a graphic controller 804, and a display device 805 that are connected to each other by a host controller 801. The input / output unit includes a communication interface 807, a hard disk drive 808, and a CD-ROM (Compact Disk Read Only Memory) drive 809 connected to the host controller 801 by the input / output controller 806. The legacy input / output unit includes a ROM (Read Only Memory) 810, a flexible disk drive 811, and an input / output chip 812 connected to the input / output controller 806.

  The host controller 801 connects the RAM 803, the CPU 802 that accesses the RAM 803 at a high transfer rate, and the graphic controller 804. The CPU 802 operates based on programs stored in the ROM 810 and the RAM 803 to control each unit. The graphic controller 804 acquires image data generated by the CPU 802 or the like on a frame buffer provided in the RAM 803 and displays the image data on the display device 805. Alternatively, the graphic controller 804 may include a frame buffer for storing image data generated by the CPU 802 or the like.

  The input / output controller 806 connects the host controller 801 to the hard disk drive 808, the communication interface 807, and the CD-ROM drive 809, which are relatively high-speed input / output devices. The hard disk drive 808 stores programs and data used by the CPU 802. The communication interface 807 is connected to the network communication device 891 to transmit / receive programs or data. The CD-ROM drive 809 reads a program or data from the CD-ROM 892 and provides it to the hard disk drive 808 and the communication interface 807 via the RAM 803.

  The input / output controller 806 is connected to the ROM 810, the flexible disk drive 811, and the relatively low-speed input / output device of the input / output chip 812. The ROM 810 stores a boot program executed when the personal computer 200 is started up or a program depending on the hardware of the personal computer 200. The flexible disk drive 811 reads a program or data from the flexible disk 893 and provides it to the hard disk drive 808 and the communication interface 807 via the RAM 803. The input / output chip 812 connects various input / output devices via the flexible disk drive 811 or a parallel port, serial port, keyboard port, mouse port, and the like.

  A program executed by the CPU 802 is stored in a recording medium such as a flexible disk 893, a CD-ROM 892, or an IC (Integrated Circuit) card and provided by a user. The program stored in the recording medium may be compressed or uncompressed. The program is installed in the hard disk drive 808 from the recording medium, read into the RAM 803, and executed by the CPU 802. The program executed by the CPU 802 includes the personal computer 200, the measurement value data reception unit 201, the measurement value data output unit 202, the warning message data reception unit 203, and the warning message data output unit described with reference to FIGS. Function as 204.

  The program shown above may be stored in an external storage medium. As a storage medium, in addition to a flexible disk 893 and a CD-ROM 892, an optical recording medium such as a DVD (Digital Versatile Disk) or a PD (Phase Disk), a magneto-optical recording medium such as an MD (MiniDisk), a tape medium, and an IC card A semiconductor memory or the like can be used. Further, a storage medium such as a hard disk or a RAM provided in a server system connected to a dedicated communication network or the Internet may be used as a recording medium and provided as a program via the network.

  As mentioned above, although this invention was demonstrated using embodiment, the technical scope of this invention is not limited to the range as described in the said embodiment. It will be apparent to those skilled in the art that various modifications or improvements can be added to the above embodiment. It is apparent from the scope of the claims that the embodiments added with such changes or improvements can be included in the technical scope of the present invention.

100 server 110 BMC
111 Measurement Value Reading Unit 112 Measurement Value Data Transmission Unit 113 Measurement Value Determination Unit 114 Warning Message Data Transmission Unit 115 Movable Part Control Unit 120 Vibration Sensor 130 HDD
140 Power supply unit 150 Fan 160 Remote management port 200 Personal computer 201 Measurement value data reception unit 202 Measurement value data output unit 203 Warning message data reception unit 204 Warning message data output unit 300 Communication line 801 Host controller 802 CPU
803 RAM
804 Graphic controller 805 Display device 806 Input / output controller 807 Communication interface 808 Hard disk drive 809 CD-ROM drive 810 ROM
811 Flexible disk drive 812 I / O chip 891 Network communication device 892 CD-ROM
893 Flexible disk

Claims (10)

A vibration response system corresponding to vibration generated in a computer,
A vibration measuring component provided in the computer for measuring the vibration of a movable component of the computer;
A monitoring component provided in the computer for monitoring the vibration measurement component;
A management terminal connected to the computer via a communication line;
The monitoring component is
A measurement value reading unit for reading out a vibration measurement value measured by the vibration measurement component from the vibration measurement component;
A measurement value data transmission unit for transmitting data indicating the vibration measurement value read by the measurement value reading unit to the management terminal;
A measurement value determination unit for determining whether or not the measurement value of vibration read by the measurement value reading unit exceeds a threshold;
When the measurement value determination unit determines that the vibration measurement value exceeds a threshold value, a warning message data transmission unit transmits data indicating a message for warning the administrator to that effect to the management terminal And
The management terminal is:
A measurement value data receiving unit for receiving data indicating a measurement value of vibration transmitted from the monitoring component;
A measurement value data output unit for outputting the data received by the measurement value data reception unit to a display means;
A warning message data receiving unit for receiving data indicating a warning message to the administrator transmitted from the monitoring component;
A vibration response system comprising: a warning message data output unit that outputs data received by the warning message data receiving unit. The vibration response system according to claim 1, wherein the warning message data output unit of the management terminal outputs data indicating the warning message to the administrator so that the warning message to the administrator is displayed on the display unit. The warning message data output unit of the management terminal outputs data indicating a warning message to the administrator so that the warning message to the administrator is transmitted to the administrator's e-mail address. The vibration response system described. The monitoring component is
The movable part control part which controls the said movable part so that the vibration of the said movable part may be suppressed when the said measured value determination part determines that the measured value of vibration exceeded the threshold value. The vibration response system according to any one of the above. A monitoring component that is provided in a computer and monitors a vibration measurement component that measures the vibration of a movable component of the computer,
A measurement value reading unit for reading out a vibration measurement value measured by the vibration measurement component from the vibration measurement component;
A measurement value data transmission unit for transmitting data indicating the measurement value of vibration read by the measurement value reading unit to a management terminal connected to the computer via a communication line;
A measurement value determination unit for determining whether or not the measurement value of vibration read by the measurement value reading unit exceeds a threshold;
When the measurement value determination unit determines that the vibration measurement value exceeds a threshold value, a warning message data transmission unit transmits data indicating a message for warning the administrator to that effect to the management terminal And monitoring parts. A control method for controlling a monitoring component that is provided in a computer and monitors a vibration measurement component that measures vibration of a movable component of the computer,
A measurement value reading step of reading out a vibration measurement value measured by the vibration measurement component from the vibration measurement component;
A measurement value data transmission step of transmitting data indicating the vibration measurement value read in the measurement value reading step to a management terminal connected to the computer via a communication line;
A measurement value determination step for determining whether or not the vibration measurement value read in the measurement value reading step exceeds a threshold value;
When it is determined in the measurement value determination step that the measured value of vibration exceeds the threshold value, warning message data transmission for transmitting data indicating a message for warning the administrator to that effect is transmitted to the management terminal A control method comprising: A program for a monitoring component that is provided in a computer and monitors a vibration measurement component that measures the vibration of a movable component of the computer, wherein the monitoring component is
A measurement value reading unit for reading out a measurement value of vibration measured by the vibration measurement component from the vibration measurement component;
A measurement value data transmission unit for transmitting data indicating the vibration measurement value read by the measurement value reading unit to a management terminal connected to the computer via a communication line;
A measurement value determination unit for determining whether or not the measurement value of vibration read by the measurement value reading unit exceeds a threshold value;
When the measurement value determination unit determines that the vibration measurement value exceeds a threshold value, a warning message data transmission unit transmits data indicating a message for warning the administrator to that effect to the management terminal Program to function as. A management terminal connected to a computer via a communication line,
Measured value data reception for receiving data indicating a measured value of vibration of a movable part of the computer, transmitted from a monitoring part that monitors a vibration measuring part that is provided in the computer and that measures vibration of the movable part of the computer And
A measurement value data output unit for outputting the data received by the measurement value data reception unit to a display means;
A warning message data receiving unit that receives data indicating a message transmitted from the monitoring component to warn an administrator that the measured value of vibration of the movable component has exceeded a threshold;
A management terminal comprising: a warning message data output unit that outputs data received by the warning message data receiving unit. A control method for controlling a management terminal connected to a computer via a communication line,
Measured value data reception for receiving data indicating a measured value of vibration of a movable part of the computer, transmitted from a monitoring part that monitors a vibration measuring part that is provided in the computer and that measures vibration of the movable part of the computer Stages,
A measurement value data output step of outputting the data received in the measurement value data reception step to a display means;
A warning message data reception step of receiving data indicating a message transmitted from the monitoring component to warn an administrator that the measured value of vibration of the movable component has exceeded a threshold;
And a warning message data output step for outputting the data received in the warning message data reception step. A program for a management terminal connected to a computer via a communication line, wherein the management terminal is
Measured value data reception for receiving data indicating a measured value of vibration of a movable part of the computer, transmitted from a monitoring part that monitors a vibration measuring part that is provided in the computer and that measures vibration of the movable part of the computer Part,
A measurement value data output unit for outputting the data received by the measurement value data reception unit to a display means;
A warning message data receiving unit that receives data indicating a message transmitted from the monitoring component to warn an administrator that a measured value of vibration of the movable component has exceeded a threshold;
A program that functions as a warning message data output unit that outputs data received by the warning message data receiving unit.

Images