KR200247746Y1 - Server apparatus having cooling fan monitoring function - Google Patents

Abstract

The server device provided with the cooling fan monitoring function disclosed herein includes a cooling fan rotation speed detection unit and a cooling fan operation information providing unit. The cooling fan rotation speed detection unit periodically detects the rotation speed of each of the plurality of cooling fans. The cooling fan operation information providing unit receives rotation speed information of the cooling fan from the cooling fan rotation speed detection unit, and determines the operation of the plurality of cooling fans based on the cooling fan rotation speed detection unit to generate cooling fan operation state information. The communication unit of the server device transmits the cooling fan operating state information to the remote server management center by electronic mail through a data communication network such as the Internet. The remote server management center can remotely monitor the cooling fan status of the server devices in each region reported by e-mail and respond immediately to an abnormality generator.

Description

SERVER APPARATUS HAVING COOLING FAN MONITORING FUNCTION}

The present invention relates to a cooling fan monitoring device for a server computer device, specifically, to monitor the operating status of a plurality of cooling fans provided in the server device and to monitor the cooling fan of the server computer device for providing the results to a remote location using a communication network Relates to a device.

Server computer devices (hereinafter, abbreviated as server devices) for providing information through a data communication network require very stable operation performance. In addition, a high speed data processing capability is required to provide the required information to a plurality of clients connecting through the data communication network. In order to respond appropriately to these demands, various hardware devices constituting the server device, for example, a central processing unit (CPU), main memory, high capacity hard disk, communication Communication devices and many other peripheral devices are used that have a high speed response capability.

Most devices with high speed response power consume a lot of current and generate a lot of heat during operation. Thus, the heat generated from the various devices constituting the server device increases the internal temperature of the device to reduce the device performance or to make normal operation difficult. In order to solve this problem, a forced air circulation system is used in which a plurality of cooling fans are mounted in a server device to force out heat generated inside the device to the outside.

The plurality of cooling fans mounted in the server device keeps the internal temperature of the device high while operating the same constantly while power is supplied to the server device. The normal operation of the cooling fan is a very important part in the server unit equipped with a large number of cooling fans, the cooling fan must be operated stably with a certain number of revolutions. However, if the rotation speed of the cooling fan is lowered or stopped for some reason, the internal temperature of the server device increases, and as described above, the server device may malfunction, or in some cases, the device may shut down. have.

For example, when the surrounding environment in which the server device is installed is not good, foreign air, such as dust contained in the atmosphere, may be attached to the cooling fan while the outside air is introduced into the device. As foreign matter is attached to the cooling fan, the rotation speed of the cooling fan decreases, thereby increasing the internal temperature of the apparatus. If this phenomenon occurs repeatedly, the operation of the cooling fan is irregular and thus may not maintain the normal speed or the function of the cooling fan is completely lost. As a result, the server device may not operate normally or may be fatally damaged.

As described above, the normal operation of the cooling fan is very important in the server device having the cooling fan. However, the detection of abnormality of the cooling fan is mostly recognized when the internal heat of the device rises to a high temperature and the device is damaged after several hours after the cooling fan starts to operate abnormally. However, it is very cumbersome for the server device manager to check the operating state of the cooling fan attached to the server device, and even if it is checked periodically, a large amount of time is required for the maintenance of the server device.

Therefore, if a server device equipped with a cooling fan is provided with a device that can periodically monitor the operating state of the cooling fan and warn in advance of an error, the server device can be operated more stably.

Accordingly, an object of the present invention is proposed to solve the above-mentioned problems, the cooling fan monitoring that can provide the cooling fan operating status information to a remote location by periodically monitoring the operating state of the plurality of cooling fans provided in the server device It is to provide a server device having a function.

1 is a block diagram showing a schematic configuration of a server device having a cooling fan monitoring function according to an embodiment of the present invention;

FIG. 2 is a block diagram illustrating a detailed configuration of a cooling fan speed detector of FIG. 1;

3 is a flowchart showing an operation procedure of the microcontroller of FIG. 2;

4 is a block diagram showing a hierarchical configuration of hardware and software of the server device of FIG. 1; And

5 is a flowchart illustrating an operation procedure of a cooling fan operation state information providing program of FIG. 4.

Explanation of symbols on the main parts of the drawings

10: server unit 12: cooling fan operation status information providing unit

20: cooling fan 30: cooling fan rotation speed detection unit

40: network 50: server management center

According to an aspect of the present invention for achieving the object of the present invention as described above, the server device having a plurality of cooling fans comprises: a cooling fan rotation speed detection unit for detecting the respective rotation speed of the plurality of cooling fans; Cooling fan operation state information providing unit for receiving the rotation speed information of the cooling fan from the cooling fan rotation speed detection unit, and determines the operation of the plurality of cooling fans based on the cooling fan operation state information; And a communication unit configured to provide cooling fan operation state information generated by the cooling fan operation state information providing unit to a designated remote location through a communication network.

In this embodiment, the cooling fan rotation speed detection unit includes: a current / voltage conversion circuit for receiving each counter electromotive current generated from the plurality of cooling fans, thereby generating corresponding square waves; A multiplexer which receives a plurality of square waves output from the current / voltage conversion circuit and selectively outputs any one thereof; And controlling the selective output of the multiplexer, counting the number of square waves input per unit time through the multiplexer, detecting the number of rotations of the plurality of cooling fans, and providing the cooling fan operation state information to the cooling fan.

In this embodiment, the cooling fan operating state information providing unit: a flag for indicating the abnormal state of the cooling fan state, a cooling fan rotation speed comparison table for comparing the rotation speed of the cooling fans, and the plurality of cooling fans A memory including a log file for recording an operation state; Generating the cooling fan operation state information by comparing the rotation speed information of the cooling fan provided from the cooling fan rotation speed detection unit with the cooling fan rotation speed comparison table of the memory to determine an operation state of each of the plurality of cooling fans; And a cooling fan operating state information providing program for setting the flag to a normal / abnormal state according to an operating state and outputting the cooling fan operating state information to the communication unit.

In this embodiment, the cooling fan operation state information providing unit transmits the cooling fan operation state information to the designated remote place by e-mail.

(Example)

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram showing a schematic configuration of a server device having a cooling fan monitoring function according to a preferred embodiment of the present invention.

As shown in FIG. 1, the server device 10 according to a preferred embodiment of the present invention includes a cooling fan rotation speed detection unit 30 and a cooling fan operation state information providing unit 12.

The cooling fan rotation speed detection unit 30 periodically detects rotation speeds of the plurality of cooling fans 20 for cooling the internal heat, and detects the detected cooling fan rotation speed information to the cooling fan operation state information providing unit 12. to provide. The cooling fan state information providing unit 12 transmits the cooling fan state information generated based on the provided cooling fan rotation speed to the server management center 50 of the remote place through the communication network 40 by electronic mail. Therefore, the remote server management center 50 can monitor the plurality of cooling fans 20 of the server apparatus 10 remotely by the cooling fan operation state information reported by an e-mail.

2 is a block diagram showing a detailed configuration of the cooling fan speed detection unit 30 of FIG.

As shown in FIG. 2, the cooling fan rotation speed detection unit 30 includes a voltage / current conversion circuit 32, a multiplexer 34, and a microcontroller 36. The multiplexer 34 includes input terminals I1 to I4 corresponding to the number of cooling fans 20.

The reverse current generated in the plurality of cooling fans 20 is input to the current / voltage conversion circuit 32 and converted into a voltage, and the converted voltage has a square wave shape and is input to the multiplexer 34. The multiplexer 34 selectively outputs square wave voltages for one of the plurality of square wave voltages to the microcontroller 36 according to the control signal of the microcontroller 36.

The microcontroller 36 receives a square wave voltage for one fan, and calculates how many square wave voltages are input during a unit time, and calculates the number of revolutions of the corresponding cooling fan based on the number of square wave voltages. When the rotation speed calculation for one cooling fan is completed, the above-described process is repeated for the remaining cooling fans to calculate the rotation speed. When the cooling fan speed calculation is completed for all the fans, the detected cooling fan rotation speed information is cooled. The fan status information providing unit 12 is provided.

3 is a flowchart showing an operation procedure of the microcontroller 36 of FIG.

Referring to FIG. 3, in step S100, the microcontroller 36 performs initialization including setting the total number of fans to the variable FN. In step S110, the device waits for a predetermined time so as not to load the device, and when the designated time elapses, the process proceeds to step S120. In step S120, the variable J for designating any one of the plurality of cooling fans 20 is initialized to one. In step S130, the variables FN and J are compared. When the variable J is smaller than the variable FN, the flow proceeds to step S140.

In step S140, the selection control signal is input to the multiplexer 34 such that the square wave corresponding to the J-th cooling fan is output from the multiplexer 34 and input to the microcontroller 36. In step S150, the number of square waves input to the unit time (for example, for 1 second) through the multiplexer 34 is counted. In step S160, the rotation speed of the J-th cooling fan is calculated using the number of square waves counted in the previous step. In step S170, the variable J is increased by 1 and the process proceeds to step S130 repeatedly.

Through the above steps, the rotation speed of each unit time for the plurality of cooling fans is obtained, and when the rotation speed for all the cooling fans is obtained, the control proceeds from step S130 to step S180. In operation S180, the rotation speed information of each of the plurality of cooling fans is provided to the cooling fan state information providing unit 12.

Subsequently, the configuration and operation of the server device 10 and the cooling fan operation state information providing unit 12 of the present invention will be described in detail with reference to FIGS. 4 and 5.

4 is a block diagram showing a hierarchical configuration of hardware and software of the server device 10 of FIG. 1, and FIG. 5 is a flowchart showing an operation procedure of the cooling fan operating state information providing program 14 of FIG.

As shown in FIG. 4, the hardware layer of the server device 10 having the cooling fan monitoring function according to the present invention includes a cooling fan speed detection unit 30, a memory 16, and a communication unit 18. In addition, a cooling layer operating state information providing program 14 is configured in a software layer. The cooling fan operation state information providing program 14 is performed by a server processor (not shown) provided in the server device 10, where a general hardware configuration and a software configuration of the server device 10 are not specifically illustrated. Those skilled in the art will appreciate.

The cooling fan operating state information providing program 14 together with the memory 16 constitutes the cooling fan operating state information providing unit 12. The memory 16 includes a flag 16a for indicating an abnormality of the cooling fan state, a cooling fan rotation speed comparison table 16b for comparing the detected cooling fan rotation speed, and a log file 16c, as described above. ) Is provided. Table 1 below is a table showing an example of the cooling fan rotation speed comparison table 16b.

Cooling fan speed (standard 5000 RPM) Operating status flag 5000 RPM-4750 RPM (less than 5%) Steady state off 4750RPM ~ 4500RPM (5% ~ 10% range) State of caution On 4500 RPM to 4250 RPM (10% to 15% range) Warning status On 4250 RPM or less (15% or less) An emergency state On

The cooling fan rotation speed detection unit 30 provides cooling fan operation state information with rotation speed information of the plurality of cooling fans 20 detected through the serial communication port 19 of the server device 10, for example, an RS232C serial communication port. To the program 14.

The cooling fan operation state information providing program 14 compares the cooling fan rotation speed information provided from the cooling fan rotation speed detection unit 30 with the cooling fan rotation speed comparison table 16b of the memory 16 to determine a plurality of cooling fans ( Determining each operating state of 20) generates cooling fan operating state information, sets the flag 16a on / off according to the operating state, and displays a normal / abnormal state. The communication unit 18 transmits the cooling fan operation state information by e-mail to the server management center 50 of the remote site connected to the communication network 40.

More specifically, the operation of the cooling fan operating state information providing program 14 will be described with reference to FIG. 5.

In operation S200, the cooling fan rotation speed detection unit 30 receives the cooling fan rotation speed information. In step S210, the rotation speed average value of each cooling fan is calculated using the input cooling fan speed information. In step S220, it is determined whether the average of 100 times is obtained. The reason for obtaining the average value 100 times of the cooling fan rotation speed is a process that is performed to determine whether the fan is in an abnormal state temporarily or is actually an abnormal state because the fan is abnormal. Therefore, it is desirable to obtain an average value for at least 100 cumulative values.

When the average of 100 times is found, the process proceeds to step S230, and the respective cooling fan speed average values obtained are compared with the cooling fan speed comparison table 16b of the memory 16, and the normal / abnormal state of the cooling fan is determined in step S240. To judge.

If it is determined that the abnormal state, the control proceeds to step S250 to send an e-mail according to the abnormal operation state. For example, when the number of revolutions of the cooling fans 20 is 5000 RPM per second and the average speed value is 4750 RPM to 4500 RPM, which is within the range of 5% to 10%, an e-mail indicating a caution status is sent. If the calculated number of revolutions is 4500RPM to 4250RPM and is in the range of 10% to 15%, an e-mail indicating a warning condition is sent. If the calculated number of revolutions is less than 4250 RPM and 15% or less, an e-mail indicating an emergency condition is sent. In step S255, the flag 16a of the memory 16 is set to an on state to indicate that it is an abnormal state.

If it is determined in the normal state in step S240, control proceeds to step S260. In step S260, the flag 16a determines the on-state value. If the flag is not in the ON state, control proceeds to step S200 to repeat the above-described process. If the flag is in the off state, control proceeds to step S270 to send an e-mail informing the normal state, and in step S275 the flag 16a is set to the off state to indicate that it is in a normal state. In operation S280, the operation state of the cooling fan is recorded in the log file 16c, and the process proceeds repeatedly to operation S200.

Through this process, the cooling fan operating state information providing program 14 determines the operating state of the cooling fan, sets the flag 16a accordingly, and remotely manages the operating state of the cooling fan by e-mail. I send it out. Here, sending the e-mail by judging the setting state of the flag 16a sends frequent e-mails only once in a normal state of less than 5% when the average value of the fan rotation speed is detected more than 100 times. This is to prevent the load of the server device 10 from occurring.

As described above, the configuration and operation of a server device having a cooling fan monitoring function according to a preferred embodiment of the present invention are shown in accordance with the above description and drawings, but this is merely described as an example and the technical idea of the present invention. Those skilled in the art will appreciate that various changes and modifications can be made without departing from the scope of the invention.

According to the present invention as described above, by periodically monitoring the operating state of the plurality of cooling fans for cooling the internal heat of the server device, if abnormal operation is notified by using an e-mail to the remote server management center connected to the communication network In this case, the server management center can immediately detect the status of the abnormally operating or failed server device and prevent the server device from being damaged.

Claims (4)

In a server unit with multiple cooling fans: A cooling fan rotation speed detection unit detecting rotation speeds of each of the plurality of cooling fans; Cooling fan operation state information providing unit for receiving the rotation speed information of the cooling fan from the cooling fan rotation speed detection unit, and determines the operation of the plurality of cooling fans based on the cooling fan operation state information; And And a communication unit configured to provide cooling fan operation state information generated by the cooling fan operation state information providing unit to a designated remote place through a communication network. According to claim 1, The cooling fan rotation speed detection unit: A current / voltage conversion circuit which receives respective counter electromotive currents generated from the plurality of cooling fans and generates corresponding square waves accordingly; A multiplexer which receives a plurality of square waves output from the current / voltage conversion circuit and selectively outputs any one thereof; And controlling the selective output of the multiplexer, counting the number of square waves input per unit time through the multiplexer, detecting the number of revolutions of the plurality of cooling fans, and providing the cooling fan operation information to the cooling fan operation information providing unit. Server device. According to claim 1, The cooling fan operation state information providing unit: A memory including a flag for indicating an abnormality of a cooling fan state, a cooling fan rotation speed comparison table for comparing the rotation speed of the cooling fans, and a log file for recording the plurality of cooling fan operation states; Generating the cooling fan operation state information by comparing the rotation speed information of the cooling fan provided from the cooling fan rotation speed detection unit with the cooling fan rotation speed comparison table of the memory to determine an operation state of each of the plurality of cooling fans; And a cooling fan operating state information providing program for setting the flag to a normal / abnormal state according to an operating state and outputting the cooling fan operating state information to the communication unit. According to claim 1, And the cooling fan operation state information providing unit transmits the cooling fan operation state information to the designated remote place by e-mail.