JP2008208806A - Fan failure diagnosis device, method and program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a fan failure diagnosis device, method and program, which can tell a fan failure rapidly and precisely with a simple structure. <P>SOLUTION: The fan failure diagnosis device A includes a switching control circuit 3 which switches between ON/OFF states of an electric power supply to a fan 1, a revolution speed detection circuit 4 which detects a revolution speed of the fan 1, a revolution speed history storage 5 which stores information on the revolution speed of the fan 1 that has been detected by the revolution speed detection circuit 4, a control instruction unit 6 which instructs the switching control circuit 3 to switch the electric power supply to the fan 1 from an on-state to an off-state, a revolution speed comparing unit 7 which compares first revolution speed information detected by the revolution speed detection circuit 4 after having switched the electric power supply to the fan 1 from the on-state to the off-state and second revolution speed information stored in the revolution speed history storage 5 before the switching, an informing unit 8 which informs outward a failure of the fan 1 when there is no change, in the comparison result of the revolution speed comparing unit 7, between the first revolution speed information and the second revolution speed information. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a fan failure diagnosis device, a fan failure diagnosis method, and a program, and in particular, a fan failure diagnosis device and a fan failure diagnosis used for diagnosing a failure of a cooling fan installed in various electronic devices such as a computer. The present invention relates to a method and a program.

  In general, in various electronic devices such as computers, a cooling mechanism is indispensable in order to protect the electronic devices from temperature stress due to internal heat generation. As a cooling means, one of the means used in many electronic devices is generally mounted with a fan inside the device, and sucked and exhausted. With this means, it is possible to improve the cooling capacity by mounting a large number of fans inside the computer equipment and rotating it at a high speed. In fact, most fan-cooled devices are equipped with multiple fans. When a fan breaks down, the cooling efficiency is lowered and temperature stress is applied to the device. Therefore, it is important to grasp the fan failure and to quickly perform a treatment such as replacement.

  Conventionally, in order to grasp the failure of a fan, a method is used in which the number of rotations of the fan is detected and a fan failure is determined when the detected value falls below a predetermined threshold (for example, Patent Documents 1 to 3). Refer to 4. This technique is hereinafter referred to as Conventional Example 1).

Also, a fan that is equipped with an energizing current detection circuit that detects the energizing current of the fan motor and that generates an alarm signal with any of the energizing current abnormality signal or the rotation speed abnormality detecting circuit abnormality signal. A motor has been proposed (for example, refer to Patent Document 5. Hereinafter, this technique is referred to as Conventional Example 2).
JP-A-2005-90913 JP 2003-111475 A JP 2000-333487 A Japanese Patent Laid-Open No. 5-189087 Japanese Patent Laid-Open No. 2003-111478

  In the conventional example 1, in a recent electronic device in which high-density mounting has progressed, a fan that has stopped rotating due to a failure may slip due to wind force caused by another fan, and the failure may not be detected. It was. In such a case, there is not enough wind power for cooling, and thermal stress can cause malfunction of electronic devices or increase the failure rate, making it difficult to quickly and accurately grasp fan failures. There was a problem.

  In Conventional Example 2, in a configuration in which a plurality of fan motors equipped with a rotation speed abnormality detection circuit are arranged in series or in parallel with the same ventilation path, a fan motor stopped due to a failure is rotated by the wind of another fan motor and exceeds a threshold value. In such a situation, it is possible to detect a failure of the failed fan motor. However, since it is necessary to provide an energization current detection circuit for detecting the energization current of the fan motor, there is a problem that the configuration becomes complicated and the cost of the entire apparatus increases.

  The techniques of Conventional Example 1 and Conventional Example 2 both detect whether or not the fan has failed in the normal operation mode, and actively detect a fan failure in the failure diagnosis mode. It was not a thing.

  The present invention has been made to solve the above problems, and provides a fan failure diagnosis device, a fan failure diagnosis method, and a program capable of quickly and accurately grasping a fan failure with a simple configuration. With the goal.

The first fan failure diagnosis apparatus of the present invention is
Switching control means for performing ON / OFF switching of power supply to the fan;
A rotational speed detection means for detecting the rotational speed of the fan;
Storage means for storing the rotational speed information of the fan detected by the rotational speed detection means;
Control instruction means for instructing the switching control means to switch the power supply to the fan from an ON state to an OFF state;
In response to an instruction from the control instruction means to the switching control means, the first rotation speed information detected by the rotation speed detection means after switching the power supply to the fan from the ON state to the OFF state, and before the switching, Comparing means for comparing the second rotational speed information stored in the storage means;
A reporting means for judging that the fan has failed when there is no change between the first rotational speed information and the second rotational speed information by the comparing means, and for reporting to the outside;
It is characterized by having.

  The fan has a plurality of fans, and the control instruction means confirms the failure of each individual fan by instructing the switching control means to sequentially switch the fan from the ON state to the OFF state. You may comprise so that it may go.

The second fan failure diagnosis apparatus of the present invention is
A rotational speed control means for controlling the rotational speed of the fan;
A rotational speed detection means for detecting the rotational speed of the fan;
Storage means for storing the rotational speed information of the fan detected by the rotational speed detection means;
Control instruction means for instructing the rotation speed control means to change the rotation speed of the fan;
The first rotation speed information detected by the rotation speed detection means after changing the rotation speed of the fan in accordance with an instruction from the control instruction means to the rotation speed control means, and stored in the storage means before the change. Comparing means for comparing the second rotational speed information,
A reporting means for judging that the fan has failed and reporting to the outside when there is no change between the first rotational speed information and the second rotational speed information by the comparing means;
It is characterized by having.

  The fan has a plurality of fans, and the control instruction means instructs the rotation speed control means to sequentially change the rotation speed of the fans, thereby confirming the failure of each fan. You may comprise as follows.

The first fan failure diagnosis method of the present invention comprises:
Detecting the fan speed,
Storing the detected rotational speed information of the fan in the storage means;
Switching power supply to the fan from an ON state to an OFF state;
Comparing the first rotational speed information detected after switching the power supply to the fan from the ON state to the OFF state, and the second rotational speed information stored in the storage means before switching; ,
When there is no change between the first rotation speed information and the second rotation speed information, the fan determines that the fan has failed, and notifies the outside;
It is characterized by having.

The second fan failure diagnosis method of the present invention comprises:
Detecting the rotational speed of the fan;
Storing the detected rotational speed information of the fan in the storage means;
Changing the rotational speed of the fan;
Comparing the first rotational speed information detected after changing the rotational speed of the fan with the second rotational speed information stored in the storage means before the change,
When there is no change between the first rotation speed information and the second rotation speed information, the fan determines that the fan has failed, and notifies the outside;
It is characterized by having.

The first program of the present invention is:
A process for detecting the rotation speed of the fan;
Processing for storing the detected number of rotations of the fan in the storage means;
A process of switching the power supply to the fan from the ON state to the OFF state;
A process of comparing the first rotational speed information detected after the power supply to the fan is switched from the ON state to the OFF state and the second rotational speed information stored in the storage means before switching. ,
When there is no change between the first rotation speed information and the second rotation speed information, it is determined that the fan has failed and a process of notifying the outside;
Is executed by a computer.

The second program of the present invention is:
Processing for detecting the rotational speed of the fan;
Processing for storing the detected number of rotations of the fan in the storage means;
A process of changing the rotational speed of the fan;
A process of comparing the first rotational speed information detected after changing the rotational speed of the fan and the second rotational speed information stored in the storage means before the change;
When there is no change between the first rotation speed information and the second rotation speed information, it is determined that the fan has failed and a process of notifying the outside;
Is executed by a computer.

  According to the first, fifth, and seventh aspects of the invention, since the power supply to the fan is switched ON / OFF, the comparison means for checking whether the rotation of the fan follows it is provided. Even if the motor is in a rotating state due to idling, it is possible to quickly and accurately grasp a fan failure.

  In addition, if a function for switching power ON / OFF for each individual fan is added to the hardware side, the rest can be realized on the firmware and software side. The function can be realized by a small hardware change without changing the hardware such as measuring the current value or current. As a result, the configuration is simplified and the manufacturing cost can be reduced.

  Furthermore, if the installed fan is hardware that is configured so that the rotation speed can be freely changed by PWM (Pulse Width Modulation) control, there is no need to change the hardware side, the firmware and Functions can be realized only by changes on the software side.

  According to the third, sixth, and eighth aspects of the invention, the normality of the fan is confirmed by confirming that the rotational speed of the fan changes following the rotational speed change instruction by PWM control. Can do.

  According to the inventions according to claims 2 and 4, against the idling of a fan that is likely to occur in a device in which a plurality of fans are mounted in parallel or directly, or a plurality of fans are configured as one module. However, it is possible to quickly and accurately grasp the fan failure.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram showing the configuration of a fan failure diagnosis apparatus according to the first embodiment of the present invention.

  The fan failure diagnosis apparatus A according to the first embodiment of the present invention is an apparatus for diagnosing a failure of the cooling fan 1 provided in various electronic devices such as a computer.

  As shown in FIG. 1, a plurality of fans 1... Are arranged in parallel or in series, and each fan 1 is driven by power supplied from a power supply circuit 2.

  The fan failure diagnosis apparatus A includes a switching control circuit 3 (switching control means) that performs ON / OFF switching of power supply to the fan 1, and a rotation speed detection circuit 4 (rotation speed detection means) that detects the rotation speed of the fan 1. ) And a rotation speed history section 5 (storage means) for storing the rotation speed information of the fan 1 detected by the rotation speed detection circuit 4, and switching control so as to switch the power supply to the fan 1 from the ON state to the OFF state. A control instruction unit 6 (control instruction means) that instructs the circuit 3 and a rotation speed detection circuit after the power supply to the fan 1 is switched from the ON state to the OFF state by an instruction to the switching control circuit 3 by the control instruction unit 6 A rotation speed comparison unit 7 (comparison means) for comparing the first rotation speed information detected by 4 and the second rotation speed information stored in the rotation speed history unit 5 before switching; 1st part 7 If there is no change between the rotational speed information and the second rotational speed information, determines that the fan 1 has failed, and a reporting unit 8 to report to the outside.

  A switching control circuit 3 provided between the fan 1 and the power supply circuit 2 switches ON / OFF of the power supplied to each fan 1.

  The power supply ON / OFF instruction is given by the control instruction unit 6, and the power supply ON / OFF is switched periodically in order for the mounted fans 1.

  The fan 1 outputs a pulse signal necessary for detecting the rotational speed of the fan 1, and this pulse signal is processed by the rotational speed detection circuit 4 to detect the rotational speed of each fan 1. The

  A history writing / comparison switching unit 9 is provided between the rotation speed detection circuit 4 and the control instruction unit 6. In the history writing / comparison switching unit 9, if the control instruction unit 6 is in the switch ON instruction state, the rotation number information from the rotation number detection circuit 4 is recorded in the rotation number history unit 5. On the contrary, if the switch is in the OFF state, the rotational speed information from the rotational speed detection circuit 4 is sent to the rotational speed comparison unit 7.

  The rotational speed comparison unit 7 compares the second rotational speed information stored in the rotational speed history unit 5 with the first rotational speed information sent from the history writing / comparison switching unit 9. As a result of the comparison, when the two rotation speed information is the same value, it is determined that the fan 1 is idling, and the reporting unit 8 records the content of the occurrence of the fan failure as a log or externally. To report.

  FIG. 2 is a flowchart for explaining the operation of the fan failure diagnosis apparatus A according to the first embodiment of the present invention.

  First, as an initial state, the control instruction unit 6 issues an ON instruction (step A1), the switching control circuit 3 is in an ON state, and power supply to each fan 1 is in an ON state. (Step A2).

  Next, the rotational speed detection circuit 4 detects the rotational speed of the fan 1 (step A3).

  Next, the history writing / comparison switching unit 9 sends the rotational speed information from the rotational speed detection circuit 4 to the rotational speed history unit 5 when receiving an ON instruction from the control instruction unit 6. The rotational speed history unit 5 stores rotational speed information for each individual fan (step A4).

  When information is stored in the rotation speed history unit 5, the control instruction unit 6 periodically issues an OFF instruction to the switching control circuit 3 (step A1), whereby a plurality of fans 1 are stored. Is turned off (step A5).

  Next, the rotational speed detection circuit 4 detects the rotational speed of the fan 1 (step A6).

  Next, the history writing / comparison switching unit 9 sends the rotational speed information from the rotational speed detection circuit 4 to the rotational speed comparison unit 7 when receiving an OFF instruction from the control instruction unit 6. The rotation speed comparison section 7 compares the second rotation speed information from the history writing / comparison switching section 9 with the first rotation speed information from the rotation speed history section 5 (step A7). By comparison, whether or not there is a change in the rotational speed is confirmed (step A8), and if there is a change in the rotational speed, it is determined that the fan is normal (step A11). That is, the rotational speed has changed because the power supply to the fan 1 has been turned off, and the rotational speed of the fan 1 has decreased following that, and it is determined that the operation of the fan 1 is normal.

  On the other hand, if the rotation speed comparison unit 7 does not change the rotation speed as a result of the comparison (step A8), it is determined that the fan is abnormal (step A9). That is, even if the power supply to the fan 1 is turned off, it does not follow the power supply. Therefore, it is conceivable that a power line failure inside the fan 1 or a power supply path to the fan 1 has failed.

  The contents of the failure are written to the log file or reported to the outside in the reporting unit 8 (step A10).

  In this way, the control instruction unit 6 sequentially switches the power supply OFF and ON for each of the plurality of fans 1 and compares the rotation speeds (step A12). All fans 1 are checked for normality (step A13).

  In the first embodiment, the rotational speed detected by the rotational speed detection circuit 4 when the power supply to the fan 1 is ON is used as the rotational speed information stored in the rotational speed history unit 5. However, when the actual rotational speed value of the fan 1 during normal operation is known, the rotational speed information may be written as a fixed value in the rotational speed history unit 5 in advance.

  According to the fan failure diagnosis apparatus A according to the first embodiment of the present invention, the rotation for checking whether or not the rotation of the fan 1 follows by switching the power supply to the fan 1 ON / OFF. Since the number comparison unit 7 is provided, it is possible to quickly and accurately grasp the failure of the fan 1 even if the fan 1 is in a rotating state due to idling.

  Further, if a function for switching power ON / OFF for each fan 1 is added to the hardware side, the rest can be realized on the firmware or software side. The function can be realized by a small hardware change without changing the hardware such as measuring the voltage or current value. As a result, the configuration is simplified and the manufacturing cost can be reduced.

  Furthermore, if the mounted fan 1 is hardware configured so that the rotation speed can be freely changed by PWM (Pulse Width Modulation) control, there is no need to change the hardware side, and the firmware And it is possible to realize the function only by the change on the software side.

  FIG. 3 is a block diagram showing the configuration of a fan failure diagnosis apparatus according to the second embodiment of the present invention. In addition, the same code | symbol is attached | subjected to the component equivalent to the former, and the description is abbreviate | omitted.

  As shown in FIG. 3, in the fan failure diagnosis apparatus B according to the second embodiment of the present invention, instead of the switching control circuit 3 of the first embodiment, a rotation speed control circuit 10 (rotation speed control means). ) Is provided.

  The fan 1 is assumed to be a fan capable of changing the rotation speed by PWM control.

  The control instruction unit 6 instructs the rotation speed control circuit 10 to change the rotation speed of the fan 1.

  The rotational speed of the fan 1 is changed by PWM control from the rotational speed control circuit 10. The rotational speed of the fan 1 may be increased as well as decreased.

  Note that the operation mode of failure diagnosis performed by the fan failure diagnosis apparatus B according to the second embodiment is a mode different from the air volume adjustment mode in normal PWM control.

  FIG. 4 is a flowchart for explaining the operation of the fan failure diagnosis apparatus B according to the second embodiment of the present invention.

  First, as an initial state, the control instruction unit 6 issues a rotation instruction at a predetermined rotation speed (step B1), and each fan 1 rotates at a predetermined rotation speed under the control of the rotation speed control circuit 10. (Step B2).

  Next, the rotational speed detection circuit 4 detects the rotational speed of the fan 1 (step B3).

  Next, the history writing / comparison switching unit 9 sends the rotational speed information from the rotational speed detection circuit 4 to the rotational speed history unit 5 when the rotational speed change instruction is not received from the control instruction unit 6. The rotational speed history unit 5 stores rotational speed information for each individual fan 1 (step B4).

  When the information is stored in the rotation speed history section 5, the control instruction section 6 periodically issues an instruction to change the rotation speed to the rotation speed control circuit 10 (step B1). The rotational speed of one fan 1 is changed from among the fans 1 (step B5).

  Next, the rotational speed detection circuit 4 detects the rotational speed of the fan 1 (step B6).

  Next, the history writing / comparison switching unit 9 sends the rotational speed information from the rotational speed detection circuit 4 to the rotational speed comparison unit 7 when receiving the rotational speed change instruction from the control instruction unit 6. The rotation speed comparison section 7 compares the second rotation speed information from the history writing / comparison switching section 9 with the first rotation speed information from the rotation speed history section 5 (step B7). By comparison, the presence or absence of a change in the rotational speed is confirmed (step B8), and if the rotational speed has changed, it is determined that the fan 1 is normal (step B11). That is, the number of revolutions is changed because the number of revolutions of the fan 1 is changed following the change of the number of revolutions of the fan 1, and it is determined that the operation of the fan 1 is normal.

  On the other hand, if the result of comparison (step B8) indicates that the rotation speed has not changed in the rotation speed comparison unit 7, it is determined that the fan 1 is abnormal (step B9). That is, even if the number of rotations to the fan 1 is changed, it does not follow the change. Therefore, it is conceivable that a power line failure in the fan 1 or a power supply path to the fan 1 has failed.

  The content of the failure is written to the log file or reported to the outside in the reporting unit 8 (step B10).

  In this way, the control instruction unit 6 sequentially changes the rotation speed of the fans 1 and compares the rotation speed information for each of the plurality of fans 1 (step B12). The normality of all the fans 1 is confirmed (step B13).

According to the fan failure diagnosis apparatus B according to the second embodiment of the present invention, by confirming that the rotational speed of the fan 1 changes following the rotational speed change instruction by PWM control, 1 normality can be confirmed.

  Further, in the first embodiment, there is a problem that the cooling efficiency is lowered during the time when the fan 1 is stopped. In the second embodiment, however, the control for increasing the rotation speed of the fan 1 is performed. Thus, it is possible to confirm that the rotation speed of the fan 1 follows, so that such a problem does not occur.

  In addition, since there are many computer devices that perform server cooling with a PWM control fan, the second embodiment can be realized only by changing firmware or software even when applied to such a device. Is possible.

  Note that the second embodiment cannot be realized with a fan in which the rotation speed cannot be changed by PWM control. Therefore, the fan is realized by the first embodiment.

  FIG. 5 is a block diagram showing a program according to the third embodiment of the present invention. As shown in FIG. 5, the third embodiment of the present invention relates to a program 11 for controlling the operation of the fan failure diagnosis apparatus A according to the first embodiment described above. The program 11 may be recorded on a recording medium such as a magnetic disk, a CD-ROM, or a semiconductor memory, or may be downloaded via a communication network.

  FIG. 6 is a block diagram showing a program according to the fourth embodiment of the present invention. As shown in FIG. 6, the fourth embodiment of the present invention relates to a program 12 for controlling the operation of the fan failure diagnosis apparatus B according to the second embodiment described above. The program 12 may be recorded on a recording medium such as a magnetic disk, a CD-ROM, or a semiconductor memory, or may be downloaded via a communication network.

  The present invention is not limited to the above-described embodiments, and various modifications can be made within the scope of the technical matters described in the claims.

  For example, when the present invention is applied to an electronic device such as a computer, it is configured to periodically diagnose whether there is a failure of the fan 1 according to the failure diagnosis operation mode. A switch may be provided so that maintenance personnel can press the operation switch during regular inspections to check the normality of the fan 1 on the spot.

  Further, the present invention can be applied to the case where only one fan 1 is provided.

  The present invention is used for diagnosing a failure of a cooling fan 1 installed in various electronic devices such as a computer.

It is a block diagram which shows the structure of the fan failure diagnostic apparatus which concerns on the 1st example of an embodiment of this invention. It is a flowchart for demonstrating operation | movement of the fan failure diagnostic apparatus which concerns on the 1st Example of this invention. It is a block diagram which shows the structure of the fan failure diagnostic apparatus which concerns on the 2nd Example of this invention. It is a flowchart for demonstrating operation | movement of the fan failure diagnostic apparatus based on the 2nd Example of this invention. It is a block diagram which shows the program which concerns on the 3rd Example of this invention. It is a block diagram which shows the program which concerns on the example of 4th Embodiment of this invention.

Explanation of symbols

A: Fan failure diagnosis device according to the first embodiment B: Fan failure diagnosis device according to the second embodiment 1: Fan 2: Power supply circuit 3: Switching control circuit 4: Rotation speed detection circuit 5: Rotation speed History section 6: Control instruction section 7: Speed comparison section 8: Notification section 9: History writing / comparison switching section 10: Speed control circuit 11: Program 12: Program

Claims (8)

Switching control means for performing ON / OFF switching of power supply to the fan;
A rotational speed detection means for detecting the rotational speed of the fan;
Storage means for storing the rotational speed information of the fan detected by the rotational speed detection means;
Control instruction means for instructing the switching control means to switch the power supply to the fan from an ON state to an OFF state;
In response to an instruction from the control instruction means to the switching control means, the first rotation speed information detected by the rotation speed detection means after switching the power supply to the fan from the ON state to the OFF state, and before the switching, Comparing means for comparing the second rotational speed information stored in the storage means;
A reporting means for judging that the fan has failed when there is no change between the first rotational speed information and the second rotational speed information by the comparing means, and for reporting to the outside;
A fan failure diagnosis apparatus comprising: The fan has a plurality,
The said control instruction | indication means confirms the failure of each said fan by instruct | indicating to the said switching control means to switch to the OFF state sequentially from the said ON state with respect to the said fan. The fan failure diagnosis apparatus according to 1. A rotational speed control means for controlling the rotational speed of the fan;
A rotational speed detection means for detecting the rotational speed of the fan;
Storage means for storing the rotational speed information of the fan detected by the rotational speed detection means;
Control instruction means for instructing the rotation speed control means to change the rotation speed of the fan;
The first rotation speed information detected by the rotation speed detection means after changing the rotation speed of the fan in accordance with an instruction from the control instruction means to the rotation speed control means, and stored in the storage means before the change. Comparing means for comparing the second rotational speed information,
A reporting means for judging that the fan has failed and reporting to the outside when there is no change between the first rotational speed information and the second rotational speed information by the comparing means;
A fan failure diagnosis apparatus comprising: The fan has a plurality,
The said control instruction | indication means confirms the failure of each said fan by instruct | indicating to the said rotation speed control means to change the rotation speed with respect to the said fan sequentially. The fan failure diagnosis device described in 1. Detecting the fan speed,
Storing the detected rotational speed information of the fan in the storage means;
Switching power supply to the fan from an ON state to an OFF state;
Comparing the first rotational speed information detected after switching the power supply to the fan from the ON state to the OFF state, and the second rotational speed information stored in the storage means before switching; ,
When there is no change between the first rotation speed information and the second rotation speed information, the fan determines that the fan has failed, and notifies the outside;
A fan failure diagnosis method comprising: Detecting the rotational speed of the fan;
Storing the detected rotational speed information of the fan in the storage means;
Changing the rotational speed of the fan;
Comparing the first rotational speed information detected after changing the rotational speed of the fan with the second rotational speed information stored in the storage means before the change,
When there is no change between the first rotation speed information and the second rotation speed information, the fan determines that the fan has failed, and notifies the outside;
A fan failure diagnosis method comprising: A process for detecting the rotation speed of the fan;
Processing for storing the detected number of rotations of the fan in the storage means;
A process of switching the power supply to the fan from the ON state to the OFF state;
A process of comparing the first rotational speed information detected after the power supply to the fan is switched from the ON state to the OFF state and the second rotational speed information stored in the storage means before switching. ,
When there is no change between the first rotation speed information and the second rotation speed information, it is determined that the fan has failed and a process of notifying the outside;
A program that causes a computer to execute. Processing for detecting the rotational speed of the fan;
Processing for storing the detected number of rotations of the fan in the storage means;
A process of changing the rotational speed of the fan;
A process of comparing the first rotational speed information detected after changing the rotational speed of the fan and the second rotational speed information stored in the storage means before the change;
When there is no change between the first rotation speed information and the second rotation speed information, it is determined that the fan has failed and a process of notifying the outside;
A program that causes a computer to execute.

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