JP3606230B2 - Device having air supply / exhaust port abnormality detection function and air supply / exhaust port abnormality detection method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an apparatus having an air supply / exhaust port abnormality detection function and an air supply / exhaust port abnormality detection method.
[0002]
[Prior art]
In many cases, a power supply unit provided in an electric device / electronic device is provided with a fan and an air supply / exhaust port for alleviating an overheated state. Further, a filter for preventing inflow of dust or the like is often provided at the air supply / exhaust port. While using the device, abnormalities related to the air supply / exhaust port may occur, for example, the filter may become clogged. When such an abnormality occurs in the air supply / exhaust port, the cooling function (heat radiation function) is lowered, and the temperature of the apparatus is raised to a higher temperature than usual. Such a state is undesirable because it causes a reduction in processing efficiency or causes a failure. Therefore, it is desirable that the apparatus automatically detect an abnormality in the air supply / exhaust port and notify the operator before the temperature becomes high.
[0003]
As a prior art, there is one that detects clogging of an air supply / exhaust port by detecting a temperature difference between an internal temperature and an external temperature of the apparatus. For example, Japanese Patent Laid-Open No. 9-42660 discloses an air supply structure for a combustor. In this technique, clogging of an air supply filter attached to an air supply passage of a combustor is detected before the burner causes abnormal combustion. This combustor is provided with room temperature detection means for detecting the temperature of air sucked into an air supply filter attached to the air intake port, and the air supply temperature detection means is attached in the air supply path between the blower fan and the air intake port. The end of the air pipe that opens into the air supply path between the temperature detecting means and the intake port has a structure that opens around the burner. Further, when the filter is clogged, the blower fan sucks high-temperature air around the burner from the air pipe, and raises the detection temperature of the air supply temperature detecting means. With such a configuration, a temperature abnormality is detected and abnormal combustion of the burner is prevented.
[0004]
[Problems to be solved by the invention]
For devices that have temperature fluctuations and require appropriate control and countermeasures, such as power supply units, the maximum rated temperature of an element in the device is not related to the external temperature of the device with respect to its internal temperature. Generally, it is not regarded as abnormal unless it exceeds. However, such a temperature abnormality detection method has a problem that inconveniences such as clogging or clogging of the air supply / exhaust port cannot be recognized until the apparatus temperature becomes abnormal.
[0005]
In addition, simply detecting the temperature difference between the inside and outside of the device does not take into account the temperature change with respect to the change in the load amount inside the device, so in the state where the load is light and the temperature is not rising so much, There is a problem that inconvenience such as blockage cannot be detected.
[0006]
The present invention has been made in view of such problems, and detects and calculates a temperature difference between an internal temperature and an external temperature in an apparatus including an air supply / exhaust port (particularly an apparatus including a power supply unit), and at the same time. By providing the load amount applied to the device at that time, it is possible to provide a device that can detect inconveniences such as blockage of the air supply / exhaust port before the temperature inside the device reaches an abnormal value. The first purpose.
[0007]
Furthermore, it is a second object of the present invention to provide a device capable of detecting inconvenience such as blockage of the air supply / exhaust port and notifying the operator of the inconvenience or performing a corresponding process such as stopping the device. The purpose.
[0010]
[Means for Solving the Problems]
In order to achieve such an object, the invention described in claim 1 includes an external temperature detecting means for detecting the external temperature of the apparatus, an internal temperature detecting means for detecting the internal temperature of the power supply unit, and an input current value of the power supply unit. Input current value detection means for detecting, fan rotation speed detection means for detecting the rotation speed of the fan provided in the power supply unit, and information for processing each information of internal temperature, external temperature, input current value, and fan rotation speed Storage means for storing the processing means, each information, and information for determining a normal range of the temperature difference between the external temperature and the internal temperature corresponding to the input current value. Therefore, the temperature difference between the internal temperature and the external temperature is calculated, it is determined whether the temperature difference is within the normal temperature difference range in the input current value at that time, and exceeds the normal temperature difference range If further fan times The number of rotations is referred to determine whether the rotation speed is normal. If the rotation speed is not normal, fan abnormality notification processing is performed for the specified output destination. If the rotation speed is normal, the air supply / exhaust port is considered abnormal. In this case, a notification process of abnormality of the air supply / exhaust port is performed for a predetermined output destination.
[0011]
According to a second aspect of the present invention, in the first aspect of the present invention, the apparatus further includes stop processing means for performing a predetermined apparatus stop process in accordance with the abnormality notification process for the air supply / exhaust port or the fan.
[0012]
According to a third aspect of the present invention, there is provided an external temperature detecting means for detecting a temperature rise outside the apparatus, an internal temperature detecting means for detecting a temperature rise inside the power supply unit, and an input current value detection for detecting an input current value of the power supply unit. Means, fan rotation speed detection means for detecting the rotation speed of the fan provided in the power supply unit, and information processing means for processing each information of the apparatus external temperature, the power supply unit internal temperature, the input current value, and the fan rotation speed Storage means for storing each information and information for determining a normal range of the temperature difference between the external temperature and the internal temperature corresponding to the input current value, and the information processing means includes the internal temperature detection means Alternatively, using the temperature rise detection by the external temperature detection means as a trigger, the temperature difference between the internal temperature and the external temperature is calculated, and whether or not the temperature difference is within the normal temperature difference range of the input current value at that time If the normal temperature difference range is exceeded, the fan rotation speed is referred to determine whether the rotation speed is normal. If the rotation speed is not normal, fan abnormality notification processing is performed for a predetermined output destination. In the case of normal rotation speed, it is considered that the air supply / exhaust port is abnormal, and the notification processing of the air supply / exhaust port abnormality is performed to a predetermined output destination.
[0013]
According to a fourth aspect of the present invention, in the third aspect of the present invention, the apparatus further comprises stop processing means for performing predetermined apparatus stop processing in accordance with the abnormality notification processing for the air supply / exhaust port or the fan.
[0014]
The invention according to claim 5 is a method of detecting an abnormality in an air supply / exhaust port in an apparatus including a power supply unit, a fan provided in the power supply unit, and an air supply / exhaust opening for ventilation, the external temperature of the apparatus, The detection step for detecting the internal temperature of the power supply unit and the input current value of the power supply unit, and the temperature difference between the internal temperature and the external temperature is calculated periodically or triggered by the internal temperature rise detection. Judgment step to determine whether the difference is within the normal temperature difference range of the input current value at that time, and if the temperature difference exceeds the normal temperature difference range, refer to the fan speed If it is not the normal rotation speed, the fan abnormality notification process is performed for the predetermined output destination. If it is the normal rotation speed, it is assumed that the air supply / exhaust port is abnormal and the predetermined output is obtained. Pay for the destination It is characterized by having an abnormality notifying step for performing notification processing of the gas inlet abnormal, the.
[0015]
According to a sixth aspect of the invention, in the fifth aspect of the invention, the apparatus further includes a device stop step for performing a predetermined device stop process when it is determined that the fan is abnormal or the supply / exhaust port is abnormal. .
[0016]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.
[0017]
FIG. 1 is a block diagram showing a configuration of a temperature rise detection device according to an embodiment of the present invention. The apparatus 1 of the present invention includes an AC / DC power supply unit 2 (hereinafter simply referred to as a power supply 2) that supplies a DC voltage to the apparatus 1, a CPU 3, a storage device 4, and a temperature outside the apparatus 1 and a temperature rise. The external temperature detection unit 5 for detecting the output and the output unit 8 are configured. Furthermore, the power source 2 includes a fan 6 that blows air to realize a cooling function, an air supply / exhaust port 7 provided in the vicinity thereof, an internal temperature detection unit 21 that detects a temperature inside the power source 2 and a temperature rise, An input current value detection circuit 22 that measures the input current value of the power supply 2 and a fan rotation speed detection unit 23 that detects the rotation speed of the fan 6 are configured. The air supply / exhaust port 7 is provided with a removable filter. A predetermined number of air supply / exhaust ports 7 are provided at predetermined positions of the apparatus 1. Further, the fan rotation speed detection unit 23 may be a function of the fan 6 itself.
[0018]
The CPU 3 operates under program control, acquires information about the temperature outside the apparatus 1, the temperature inside the power supply 2, the input current value of the power supply 2, and the rotational speed of the fan 6 from each unit, and the storage device 4 as necessary. Save the data to perform information processing. The storage device 4 stores the above information. Also, information for determining a normal range of the temperature difference between the external temperature and the internal temperature corresponding to a certain input current value is stored (described later).
[0019]
In order to consider the load applied to the power source 2, the input current value of the power source 2 is used. This is because the change in the load of the power source 2 is roughly proportional to the change in the input current of the power source 2.
[0020]
As the temperature detection means, an element such as a thermistor or a temperature sensor whose resistance value linearly changes depending on the temperature is used. Each temperature is detected as a voltage level by these temperature detection means. The input current value is detected as a voltage level by a resistor, a current transformer, or the like. Further, the rotational speed of the fan 24 can be easily detected by using a fan that notifies the rotational speed in pulses. Each piece of detected information is converted into digital data by an A / D converter and then processed by the CPU 3.
[0021]
Hereinafter, the internal temperature of the power source 2 is Ti, the external temperature of the apparatus 1 is To, the temperature difference between Ti and To is Td, and the input current value of the power source 2 is I.
[0022]
Next, processing of each information will be described. First, if the operating state of the cooling function in the power supply 2 is normal, the internal temperature Ti is determined in a substantially linear function as shown in FIG. 2 according to the size of the load applied to the power supply 2 and the external temperature To. The Further, when the external temperature To changes by ΔT in a state where the load applied to the power source 2 is not changed, the internal temperature Ti similarly changes by ΔT. Therefore, the temperature difference Td between the internal temperature Ti and the external temperature To is equal to the load Depending on the change, the relationship changes as shown in FIG. The storage device 4 stores information including the above relational expressions.
[0023]
The CPU 3 determines whether or not the temperature difference Td is within the normal temperature difference range in the input current value I at that time by using the temperature rise detection as a trigger or by periodic temperature detection. When the normal temperature difference range is exceeded, it is determined that the air supply / exhaust port 7 or the fan 6 is abnormal. When the CPU 3 determines that there is an abnormality in the air supply / exhaust port 7 or the fan 6, it performs a notification process of an abnormal state to a predetermined output destination, the output unit 8 in FIG. As an output destination, a display, an audio device, a remote terminal, or the like provided in the device 1 can be considered. Further, in accordance with the abnormal state notification process, the apparatus stop process (interruption of work being processed, data storage, power supply shutdown, etc.) is performed according to a predetermined procedure.
[0024]
FIG. 4 is a flowchart showing the operation of “an apparatus having an air supply / exhaust port abnormality detection function” in the embodiment of the present invention. When the internal temperature Ti rises due to some factor (external temperature rise, load rise, etc.) and the temperature rise is detected by the internal temperature detection unit 21 and the CPU 3, or when the temperature difference is determined periodically When the determination is made (step S1), the CPU 3 calculates a temperature difference Td between the internal temperature Ti and the external temperature To (step S2). Whether the temperature difference Td is within the normal temperature difference range in the input current value I (step S3) at the same point detected by the input current value detection circuit 5 is read out from the storage device 4 to determine. (Step S4).
[0025]
This temperature rise is due to an increase in the load amount (that is, the input current value I), and when the temperature difference Td is within the normal temperature difference range in the load amount (input current value I) at that time, the CPU 3 Continues the operation of the device 1 and the power source 2 (step S5). On the other hand, when the temperature difference Td exceeds the normal temperature difference range in the load amount (input current value I) at that time, the CPU 3 determines that “the air supply / exhaust port or the fan is abnormal” (step S4). / NO).
[0026]
When it is determined that “the air supply / exhaust port or the fan is abnormal”, the CPU 3 next acquires information on the fan rotation speed from the fan 6 or the storage device 4 to determine whether the rotation speed of the fan 6 has decreased. (Step S6). When the rotational speed of the fan 6 is lower than the normal rotational speed (step S6 / NO), the information “the rotational speed abnormality state of the fan 6” is sent to a predetermined output destination, in FIG. In response to this, a process of notifying the user is performed (step S7-a). After the abnormal state notification process or simultaneously with it, a process of stopping the operation of the apparatus 1 according to a predetermined procedure is performed (step S7-b).
[0027]
When the rotational speed of the fan 6 is normal (step S6 / YES), the CPU 3 determines that the “supply / exhaust port 7 is blocked (clogged state)” and the “supply / exhaust port 7 abnormal state” Is output to a predetermined output destination, that is, the output unit 8 in FIG. 1, and a process of notifying the user is performed (step S8-a). After the abnormal state notification process or simultaneously with it, a process of stopping the operation of the apparatus 1 according to a predetermined procedure is performed (step S8-b).
[0028]
The notification process and the stop process in step S7 and step S8 differ depending on the type and property of the apparatus to which the method is applied. For example, in the case of an apparatus in which an abnormal temperature state may lead to an accident or the like, the power supply will be quickly shut down.
[0029]
The above-described embodiment shows an example of a preferred embodiment of the present invention, and the present invention is not limited thereto, and various modifications can be made without departing from the scope of the invention. .
[0030]
【The invention's effect】
As is clear from the above description, according to the present invention, the temperature difference between the internal temperature and the external temperature is detected, and at the same time, within the range compared to the normal temperature difference range in the load amount at that time By determining whether or not, the abnormality of the air supply / exhaust port or the fan can be detected and dealt with in advance before the internal temperature reaches an abnormal value.
[0031]
In addition, by notifying the user of an abnormality in the air supply / exhaust port or fan, it is possible to appeal the necessity of maintenance for the air supply / exhaust port or fan, and the user can properly cool the device by performing appropriate maintenance accordingly. Efficiency can be kept normal.
[0032]
In addition, with the notification of abnormal conditions, by performing appropriate device stop processing such as interruption of work being processed, data storage, power shutdown, etc., wasteful energy consumption can be prevented, and element failure and , Can prevent larger accidents.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of “an apparatus having an air supply / exhaust port abnormality detection function” in an embodiment of the present invention.
FIG. 2 is a diagram illustrating a relationship among a load amount (input current value), an internal temperature Ti, and an external temperature To.
FIG. 3 is a diagram illustrating a relationship among a load amount (input current value I), a temperature difference Td, and a normal temperature difference range.
FIG. 4 is a flowchart showing an operation of “an apparatus having an air supply / exhaust port abnormality detection function” in the embodiment of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Main body apparatus 2 AC / DC power supply unit 21 Internal temperature detection part 22 Input current value detection circuit 23 Fan rotation speed detection part 3 CPU (information processing part)
4 Storage device 5 External temperature detector 6 Fan 7 Air supply / exhaust port (including filter)
8 Output section

Claims (6)

External power detection means for detecting the external temperature of the device, internal temperature detection means for detecting the internal temperature of the power supply unit, input current value detection means for detecting the input current value of the power supply unit, and the power supply unit Fan rotational speed detection means for detecting the rotational speed of the fan, information processing means for processing each information of the internal temperature, the external temperature, the input current value, and the fan rotational speed, the information, Information for determining a normal range of the temperature difference between the external temperature and the internal temperature corresponding to the input current value, and storage means for storing,
The information processing means periodically calculates a temperature difference between the internal temperature and the external temperature, and whether the temperature difference is within the normal temperature difference range in the input current value at that time If the normal temperature difference range is exceeded, it is further determined whether the rotational speed is normal with reference to the fan rotational speed. If the rotational speed is not normal, a fan error is detected with respect to a predetermined output destination. An apparatus having an air supply / exhaust port abnormality detection function that performs a notification process and performs a notification process of an air supply / exhaust port abnormality with respect to the predetermined output destination by assuming that the air supply / exhaust port is abnormal when the rotation speed is normal. . The apparatus having an air supply / exhaust port abnormality detection function according to claim 1 , further comprising stop processing means for performing a predetermined device stop process in accordance with an abnormality notification process for the air supply / exhaust port or the fan. An external temperature detecting means for detecting a temperature rise outside the apparatus, an internal temperature detecting means for detecting a temperature rise inside the power supply unit, an input current value detecting means for detecting an input current value of the power supply unit, and the power supply unit Fan rotational speed detection means for detecting the rotational speed of the provided fan, information processing means for processing each information of the device external temperature, the power supply unit internal temperature, the input current value, and the fan rotational speed, Storage means for storing each information and information for determining a normal range of the temperature difference between the external temperature and the internal temperature corresponding to the input current value,
The information processing means calculates a temperature difference between the internal temperature and the external temperature using a temperature rise detection by the internal temperature detection means or the external temperature detection means as a trigger, and the temperature difference is the current difference at the time. It is determined whether or not the input current value is within the normal temperature difference range. If the normal temperature difference range is exceeded, it is further determined whether or not the rotation speed is normal with reference to the fan rotation speed. When the engine speed is not normal, the fan abnormality notification process is performed for the predetermined output destination. When the engine speed is normal, the air supply / exhaust port abnormality notification process is performed for the predetermined output destination. An apparatus having an air supply / exhaust port abnormality detection function. 4. The apparatus having an air supply / exhaust port abnormality detection function according to claim 3 , further comprising stop processing means for performing a predetermined device stop process in accordance with an abnormality notification process for the air supply / exhaust port or the fan. An air supply / exhaust port abnormality detection method in a device including a power supply unit, a fan provided in the power supply unit, and an air supply / exhaust port for ventilation,
A detection step of detecting an external temperature of the device, an internal temperature of the power supply unit, and an input current value of the power supply unit;
The temperature difference between the internal temperature and the external temperature is calculated periodically or triggered by internal temperature rise detection, and the temperature difference is within the normal temperature difference range of the input current value at that time A determination step for determining whether or not,
When the temperature difference exceeds the normal temperature difference range, it is further determined whether the rotation speed is normal by referring to the rotation speed of the fan. An abnormality notification step for performing an abnormality notification process and performing a notification process of an abnormality in the air supply / exhaust port with respect to the predetermined output destination by assuming that the air supply / exhaust port is abnormal when the rotation speed is normal. How to detect abnormalities of air supply and exhaust ports 6. The air supply / exhaust port abnormality detection method according to claim 5 , further comprising a device stop step for performing a predetermined device stop process when it is determined that the fan abnormality or the air supply / exhaust port abnormality.

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