JP3815427B2 - Power supply device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a power supply device, and in particular, a power control circuit provided in a rack mount housing power source that supplies power to a plurality of mounted devices mounted in a rack mount housing includes a status monitoring of AC power input, Monitors the status of the power supply port of the AC power supply to the mounted device, detects an AC power input failure of the rack mount chassis power supply and a failure of the mounted device, and reports failure information to the diagnostic processor The present invention relates to a power supply device that can easily maintain and replace defective and failed parts.
[0002]
[Prior art]
A conventional power supply device of this type will be described with reference to the drawings.
[0003]
FIG. 3 is a schematic block diagram showing a conventional power supply apparatus.
[0004]
Referring to FIG. 3, the power supply device 100 is provided in a rack mount housing 130, a plurality of rack mounted devices 113, 114, 115 mounted on the rack mount housing 13, and the rack mount housing 130. The rack mount housing power supply 131 supplies power to the mounted devices 113, 114, and 115. The rack mount housing power supply 131 receives the AC power input 132 and the input from the power receiving port 101. Is controlled by the power supply control circuit 120 via a relay control line 125 which is provided at a subsequent stage of the breaker and the power supply control circuit 120 to which the AC power input 132 is supplied when the breaker 102 is turned on. Relay 103, fuse 110 provided at the subsequent stage of relay 103, and rack mounted devices 113 and 114 115, power supply ports 107, 108, and 109 that supply power to rack mounted devices 113, 114, and 115, respectively. The alarm detecting unit 121 includes a fault information notifying unit 122 that receives the status of the AC power input 132 from the AC input line alarm detecting unit 121.
[0005]
The power supply device 100 configured as described above supplies power to the rack mounted devices 113, 114, 115, and the rack mounted devices 113 via the AC power input 132 via the power supply ports 107, 108, 109. , 114, and 115, and the power supply control circuit 120 detects a failure of the rack mount chassis power supply 131 and reports the failure information, and further distributes the information to the rack mounted devices 113, 114, and 115. The power supply is controlled by turning on and off the AC outputs 133, 134, and 135.
[0006]
The fault detection of the AC power input 132 is performed only by the AC input line alarm detection means 121 between the breaker 102 and the relay 103 at the rear stage of the power receiving port 101 of the AC power input 132 of the rack mount chassis power supply 131. The failure of the power supply cannot be detected in the entire rack mount chassis 130 including the power supply unit (not shown) of the rack mounted devices 113, 114, and 115 mounted on the rack mount chassis 130. Cannot be reported to the diagnostic processor 106.
[0007]
Further, when power is supplied to a wide variety of rack mounted devices 113, 114, and 115, the fuse 110 of the rack mount chassis power supply 130 is caused by the power supply characteristics of the rack mounted devices 113, 114, and 115 (especially the fuse blowing characteristics). The fuse 110 of the rack mount chassis power supply 131 is blown out because the fuse is blown first, the power supply is accidentally turned off, or the power failure of one of the rack mounted devices 113, 114, 115 is overcurrent. The entire rack mount chassis power supply 131 may be cut off, and the other rack mounted devices 113, 114, 115 may be involved in the failure.
[0008]
Therefore, there is a power supply circuit having a plurality of loads that reliably protects the power supply device and the power supply line from an accident on the load side, and prevents a secondary disaster due to a system malfunction (see Patent Document 1).
[0009]
In the technology described in Patent Document 1, a plurality of load circuits are connected to an output terminal of a power supply device with an overcurrent protection function via a plurality of overcurrent detection units, and an overcurrent occurs in the load circuit. Detected by the detection unit, an overcurrent detection signal is sent to the short circuit, and in response to this, the short circuit shorts the output terminal of the power supply device and the ground, thereby stopping the power supply from the power supply device, Each device is protected and secondary disasters are prevented.
[0010]
In addition, when an abnormality occurs in the power supply system that supplies power to the optional device side, there is also a device that secures a control power source necessary for communication with the main body side in the optional device (see Patent Document 2).
[0011]
The technique described in Patent Document 2 is a low-power detection circuit that controls to drop the voltage of the output system when an overcurrent is detected by an overcurrent detection circuit, and detects when the voltage of the output system falls below a set value. When an abnormality occurs when the voltage of any output system of the power supply system that supplies power to the optional equipment is below the set value, a voltage detection circuit is provided as an auxiliary power supply from the output system of a power supply system different from the corresponding power supply system. Powering optional equipment [Patent Document 1]
JP-A-10-124154 [Patent Document 2]
Japanese Patent Laid-Open No. 2000-92744 [0012]
[Problems to be solved by the invention]
A conventional power supply device that performs the above-described conventional AC power input failure detection only between the AC breaker AC power input power receiving port breaker and the relay by the AC input line alarm detection means is a rack. There is a problem that a power failure cannot be detected in the entire rack mount housing including the power supply unit of the rack mounted device mounted in the mount housing.
[0013]
Also, depending on the fusing characteristics of the fuse provided in the rack mounted device, the rack mount chassis power supply fuse may blow out first, causing the power to be cut off accidentally, or Overcurrent due to a power supply failure, the fuse of the rack mount chassis power supply is blown, the entire rack mount chassis power supply is disconnected, and there is a problem that the rack mounted device that has not failed is involved in the fault .
[0014]
In the technology described in Patent Document 1, when at least one of a plurality of overcurrent detection means detects an overcurrent of a load circuit, a ground is generated at the output terminal and power supply from the output terminal is stopped. Therefore, there is a problem that power supply to other normal load circuits in which no failure has occurred is stopped, and the operation of other normal load circuits cannot be continued.
[0015]
The technique described in Patent Document 2 has no means for confirming the voltage at the input terminal of the power supply device, and therefore cannot detect a power failure at the input terminal and cannot notify the system of the failure. is there.
[0016]
An object of the present invention is to solve the above problems by monitoring the state of AC power input and AC power to a mounted device by a power supply control circuit provided in a rack mount housing power supply that supplies power to a plurality of mounted devices. By monitoring the status of the power input at the power supply port, detecting the AC power input failure of the rack mount chassis power supply and the failure of the mounted device, reporting the failure information to the diagnostic processor, An object of the present invention is to provide a power supply device that can easily perform maintenance and replacement of a failed part.
[0017]
In addition, if the fuse of the fuse bypass circuit has a fusing characteristic that blows ahead of the power fuse provided in the mounted device, the fuse of the rack mount chassis power supply will blow out first by bypassing the fuse. Or an overcurrent due to a power failure of one of the mounted devices, the fuse of the rack mount chassis power supply is blown, the entire rack mount chassis power supply is shut down, and a failure occurs. It is an object of the present invention to provide a power supply device that can prevent a mounted device that has not been installed from being turned off.
[0018]
[Means for Solving the Problems]
The power supply device of the present invention includes a rack mount housing, a plurality of mounted devices mounted in the rack mount housing, a rack mount housing power source that is provided in the rack mount housing and supplies power to the mounted devices, The rack mount chassis power supply has a power control circuit to which power input is supplied when the breaker is on, and a fuse bypass circuit having a fuse, and the mounted device has a power fuse, The control circuit includes means for monitoring the state of the power input, means for monitoring the state of the power input to the mounted device, and fuse bypass control means for controlling whether or not to bypass the fuse of the fuse bypass circuit. Features.
[0019]
The power supply device of the present invention includes a rack mount housing, a plurality of mounted devices mounted in the rack mount housing, a rack mount housing power source that is provided in the rack mount housing and supplies power to the mounted devices, The rack mount chassis power supply includes a power receiving port for receiving power input, a breaker for turning on / off the input from the power receiving port, a power control circuit for supplying power input when the breaker is on, and a breaker A relay provided in the subsequent stage, a fuse bypass circuit provided in the subsequent stage of the relay and provided with a fuse, and a power supply port that is provided corresponding to the mounted device and supplies power to the mounted device. The apparatus has a power supply fuse, and the power supply control circuit receives input line alarm detection means for monitoring the state of the power supply input, and power supply input status from the input line alarm detection means. Harm information reporting means, mounted device power supply operation detecting means for monitoring the state of power input to the mounted device at the power supply port, and fuse bypass control means for controlling whether or not to bypass the fuse of the fuse bypass circuit. It is characterized by having.
[0020]
The power supply control circuit controls the relay and supplies a power input to the mounted device.
[0021]
The fuse bypass control means controls whether or not to bypass the fuse bypass circuit according to a fusing characteristic of the fuse.
[0022]
The fuse bypass control means bypasses the fuse of the fuse bypass circuit when the fuse of the fuse bypass circuit blows before the power supply fuse provided in the mounted device.
[0023]
The fuse bypass control means has a rising fusing characteristic in which the current allowable value of the power supply fuse provided in the mounted device is equal to the current allowable value of the fuse of the fuse bypass circuit and the fuse blows in a shorter time than the power fuse. Is characterized by bypassing the fuse of the fuse bypass circuit.
[0024]
The power input has a single-phase AC100V or a single-phase AC200V.
[0025]
When the power supply input is supplied, the power supply control circuit monitors the state of the power supply input by the input line alarm detection means. If a voltage fluctuation fault occurs, the fault information is reported to the diagnostic processor via the fault information reporting means. It is characterized by reporting.
[0026]
The power control circuit turns on the relay, supplies power input to the power supply port, monitors the power input status of each mounted device connected to the power supply port by the mounted device power supply operation detection means, and changes the voltage Alternatively, when a current fluctuation failure occurs, the failure information is reported to the diagnostic processor via the failure information reporting means.
[0027]
The current allowable value of the power supply fuse of the mounted device and the current allowable value of the fuse in the fuse bypass circuit are stored in the diagnostic processor.
[0028]
DETAILED DESCRIPTION OF THE INVENTION
Next, an embodiment of a power supply device of the present invention will be described with reference to the drawings.
[0029]
FIG. 1 is a schematic block diagram showing an embodiment of a power supply device of the present invention.
[0030]
Referring to FIG. 1, the power supply device 40 includes a rack mount housing 30, a plurality of mounted devices 13, 14, 15 mounted on the rack mount housing 30, and a device mounted and mounted in the rack mount housing 30. The rack mount housing power source 31 is configured to supply power to the mounting devices 13, 14, and 15. The rack mount housing power source 31 includes a power receiving port 1 that receives an AC power input 32 (AC single phase 100 V or 200 V), and , A breaker 2 that turns on and off the input from the power receiving port 1, a power supply control circuit 20 that is supplied with an AC power input 32 when the breaker 2 is on, a relay 3 that is provided at a subsequent stage of the breaker 2, Fuse bypass circuits 10, 11, 12 provided at a subsequent stage and including a fuse (not shown) and a circuit (not shown) for switching and bypassing the fuse; The power supply ports 7, 8, and 9 that supply AC power outputs 33, 34, and 35 to the mounted devices 13, 14, and 15 are provided corresponding to the devices 13, 14, and 15, respectively. , 14 and 15 have power supply fuses (not shown), and the power supply control circuit 20 includes an input line alarm detection means 21 for monitoring the state of the AC power input 32 and the state of the AC power input 32 as an input line alarm. A failure information reporting means 22 received from the detection means 21, a mounted device power supply operation detecting means 23 for monitoring the state of the AC power input 32 to the mounted devices 13, 14, 15 at the power supply ports 7, 8, 9; Fuse bypass control means 24 for controlling whether or not to bypass the fuse provided in each of the fuse bypass circuits 10, 11, and 12.
[0031]
Next, the operation of the power supply device 40 configured as described above will be described with reference to the drawings.
[0032]
FIG. 2 is a flowchart showing the operation of the power supply device 40.
[0033]
Referring to FIG. 2, when the system administrator (operator) turns on the breaker 2 of the rack mount chassis power supply 31 (S1), the power supply control circuit 20 starts operating when the AC power input 32 is turned on. (S2) The monitoring of the voltage state of the AC power input 32 is started by the input line alarm detection means 21 (S3).
[0034]
The voltage state of the AC power input 32 is monitored, for example, when the input voltage is 100 V, the voltage state that is 110 V or more or 88 V or less is checked.
[0035]
Next, the power supply control circuit 20 sets the allowable current value of the power supply fuse of the mounted devices 13, 14, and 15 and the current of the fuse in the fuse bypass circuits 10, 11, and 12 that are set in advance in the diagnostic processor 6 by the operator. Fuse bypass setting information (S4, S5) in which information on allowable values is stored is obtained from the diagnostic processor 6, and based on the information, fuse bypass control means 24 is provided in the fuse bypass circuits 10, 11, 12 respectively. An instruction is given as to whether or not to bypass the fuse (S6).
[0036]
The fuse bypass control means 24 controls whether or not to bypass the fuse bypass circuits 10, 11, and 12 based on the fusing characteristics between the power fuse and the fuse, but the power supply provided in the mounted devices 13, 14, and 15 When the fuse of the fuse bypass circuits 10, 11, and 12 is blown before the fuse, that is, when the current allowable value (Id) of the power supply fuse is larger than the current allowable value (Is) of the fuse (Id> Is), the fuse An instruction to bypass the fuses of the bypass circuits 10, 11, and 12 is given.
[0037]
Further, the fuse bypass control means 24 is such that the allowable current value (Id) of the power supply fuse provided in the mounted devices 13, 14, 15 is equal to the allowable current value (Is) of the fuses of the fuse bypass circuits 10, 11, 12. If (Id = Is) and the fuse has a rising blow characteristic that blows in a shorter time than the power supply fuse, an instruction to bypass the fuses of the fuse bypass circuits 10, 11, and 12 is given.
[0038]
The fuse bypass circuits 10, 11, and 12 bypass the fuse for the power supply ports 7, 8, and 9 according to an instruction from the fuse bypass control means 24, or use the fuse bypass circuits without being bypassed (S7).
[0039]
When the AC power input 32 is turned on (ON) from the operator (S8), the power supply control circuit 20 turns on the relay 2 via the relay control line 25 (S9). The AC power input 32 is supplied, and the mounted devices 13, 14, and 15 start operating (S10).
[0040]
The mounted device power supply operation detection means 23 starts monitoring the state of the AC power input 32 supplied to the mounted devices 13, 14, 15 (S11).
[0041]
Here, when a power failure occurs in any of the mounted devices 13, 14, 15, the mounted device power supply operation detection means 23 detects a power supply abnormality (voltage fluctuation abnormality), and the failure-mounted mounted device 13, 14 and 15 are collected and notified to the failure information reporting means 22 (S12), and the failure information reporting means 22 that has received the failure information notifies the diagnostic processor (DGP) 6 of the failure information (S13), The DGP 6 that has received the failure information stores the failure information and notifies the operator (S14).
[0042]
The operator makes a maintenance personnel call based on the failure information (S15), but the mounted devices 13, 14, and 15 in which the failure has occurred are recovered by the maintenance personnel and the operation is resumed ( S16).
[0043]
Next, when the operation is stopped, the power supply control circuit 20 turns off the relay 2 via the relay control line 25 in response to an OFF instruction of the AC power input 32 from the operator (S17) (S18). ), The supply of the AC power input 32 to the mounted devices 13, 14, and 15 is cut off, and the operations of the mounted devices 13, 14, and 15 are stopped (S19). At the same time, the mounted device power supply operation is detected. The means 23 stops the status monitoring of the AC power input 32 supplied to the mounted devices 13, 14, 15 (S20).
[0044]
Next, the power supply control circuit 20 gives a bypass release instruction to the fuse bypass circuits 10, 11, 12 by the fuse bypass control means 24 (S 21), and the fuse bypass circuits 10, 11, 12 are sent from the fuse bypass control means 24. In response to the instruction, the bypass of the fuses in the fuse bypass circuits 10, 11, and 12 with respect to the power supply ports 7, 8, and 9 is released (S22).
[0045]
When the operator turns off the breaker 2 of the rack mount chassis power supply 31 (S23), the power supply control circuit 20 stops the operation by cutting off the AC power input 32 (S24). The status monitoring of the AC power input 32 is stopped (S25).
[0046]
In the above embodiment, the mounted devices 13, 14, and 15 are three. However, the number of the mounted devices 13, 14, and 15 is not limited, and there are n mounted devices (n: natural number). In this case, when the number of power supply ports is n, the number of fuse bypass circuits is n, and the number of power supply state monitoring targets by the power supply control circuit is n, the same effect as the above-described embodiment can be obtained. Needless to say, it is included in the present invention.
[0047]
【The invention's effect】
As described above, the power supply device of the present invention is in an AC power input state by the power control circuit provided in the rack mount housing power source that supplies power to a plurality of mounted devices mounted on the rack mount housing. Monitors and monitors the status of the AC power supply port to the mounted device, detects an AC power input failure of the rack mount chassis power supply, and detects a failure of the mounted device, and diagnoses failure information as a diagnostic processor By reporting to, there is an effect that it is possible to easily maintain and replace defective and failed parts.
[0048]
Also, in order to bypass fuses in the fuse bypass circuit in the previous stage of each power supply port according to instructions from the fuse bypass control means, when supplying power to the mounted device, the fusing characteristics of the power fuse provided in the mounted device As a result, the fuse of the rack mount chassis power supply is blown first, and the power supply is accidentally turned off, or an overcurrent is generated due to a power failure of a certain mounted device, and the fuse of the rack mount chassis power supply is melted, so that the rack mount chassis There is an effect that it is possible to prevent the entire power source from being turned off and being involved in a mounted device in which no failure has occurred and being turned off.
[Brief description of the drawings]
FIG. 1 is a schematic block diagram showing an embodiment of a power supply device of the present invention.
FIG. 2 is a flowchart showing the operation of the power supply device of the present invention.
FIG. 3 is a schematic block diagram showing a conventional power supply device.
[Explanation of symbols]
1, 101 Power receiving port 2, 102 Breaker 3, 103 Relay 6, 106 Diagnostic processor 7, 8, 9 Power supply port 10, 11, 12 Fuse bypass circuit 13, 14, 15 Mounted device 20, 120 Power control circuit 21 Input line Alarm detection means 22, 122 Fault information reporting means 23 Mounted device power supply operation detection means 24 Fuse bypass control means 25, 125 Relay control lines 30, 130 Rack mount housing 31, 131 Rack mount chassis power supply 32, 132 AC power input 33 , 34, 35 AC power output 40, 100 Power supply device 107, 108, 109 Power supply port 110 Fuse 113, 114, 115 Rack mounted device 121 AC line alarm detection means 133, 134, 135 AC output

Claims (10)

  A rack mount housing, a plurality of mounted devices mounted on the rack mount housing, and a rack mount housing power source that is arranged in the rack mount housing and supplies power to the mounted devices, The rack mount housing power source includes a power control circuit to which a power input is supplied when the breaker is on, and a fuse bypass circuit having a fuse, and the mounted device has a power fuse, and the power control circuit Means for monitoring the state of the power input, means for monitoring the state of the power input to the mounted device, and fuse bypass control means for controlling whether or not to bypass the fuse of the fuse bypass circuit. A power supply device comprising:   A rack mount housing, a plurality of mounted devices mounted on the rack mount housing, and a rack mount housing power source that is arranged in the rack mount housing and supplies power to the mounted devices, The rack mount housing power supply includes a power receiving port that receives power input, a breaker that turns on and off the input from the power receiving port, a power control circuit that is supplied with the power input when the breaker is on, and the breaker A relay provided in a subsequent stage, a fuse bypass circuit provided in a subsequent stage of the relay and provided with a fuse, and a power supply port provided corresponding to the mounted device and supplying power to the mounted device The mounted device has a power fuse, and the power control circuit includes an input line alarm detecting means for monitoring the power input status, and a status of the power input. Fault information reporting means received from the input line alarm detection means, mounted device power supply operation detecting means for monitoring the state of the power input to the mounted device at the power supply port, and bypassing the fuse of the fuse bypass circuit And a fuse bypass control means for controlling whether or not to perform power supply.   The power supply device according to claim 2, wherein the power control circuit controls the relay to supply the power input to the mounted device.   The power supply apparatus according to claim 1 or 2, wherein the fuse bypass control means controls whether or not to bypass the fuse bypass circuit according to a fusing characteristic of the fuse.   The fuse bypass control means bypasses the fuse of the fuse bypass circuit when the fuse of the fuse bypass circuit blows before the power supply fuse provided in the mounted device. The power supply apparatus according to claim 1 or 2. The fuse bypass control means, the equivalent allowable current value of the fuse current allowable value of the power fuse provided in the mounting device the fuse bypass circuit, and, blowing the fuse in a short time than the power fuse 3. The power supply device according to claim 1, wherein the fuse of the fuse bypass circuit is bypassed when it has a rising fusing characteristic.   3. The power supply apparatus according to claim 1, wherein the power input has a single-phase AC100V or a single-phase AC200V.   When the power input is supplied, the power control circuit monitors the state of the power input by the input line alarm detection means, and when a voltage fluctuation fault occurs, the fault information notification means, 3. The power supply apparatus according to claim 2, wherein failure information is reported to the diagnostic processor.   The power supply control circuit turns on the relay, supplies the power input to the power supply port, and the power input of each mounted device connected to the power supply port by the mounted device power supply operation detecting means. 3. The power supply apparatus according to claim 2, wherein when the fault of voltage fluctuation or current fluctuation occurs, fault information is reported to the diagnostic processor via the fault information reporting means. .   The power supply device according to claim 5 or 6, wherein the current allowable value of the power supply fuse of the mounted device and the current allowable value of the fuse in the fuse bypass circuit are stored in a diagnostic processor.

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