JP2758740B2 - Power supply device and control method thereof - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an uninterruptible power supply and a control method thereof.

[0002]

2. Description of the Related Art The configuration of a conventional example will be described with reference to FIG. FIG. 4 is a diagram showing a distributed train operation management system using a conventional power supply device disclosed in, for example, JP-A-61-89166.

In FIG. 4, 1 is a central control unit, 2 is a console connected to the central control unit 1, and 3 is a central control unit 1.
4 is an operation display panel connected to the central control device 1, 5 and 6 are communication control devices for transmitting and receiving each station through the transmission line 12, 7 is a station control device installed at each station, 8, 9, 10 and 11 are relay interlocking devices, station information display devices connected to the station control device 7, respectively.
A station information broadcasting device and a ticket vending machine.

Next, the operation of the above-described conventional example will be described. The relay interlocking device 8, the station information display device 9, the station information broadcasting device 10, and the ticket vending machine 11 connected to the station control device 7 do not need to operate except during the train operation time zone. Then, the station control device 7 performs the following processing so that the stop / start control of the power supply of these devices 8 to 11 is automatically performed by the station control device 7.

[0005] The station control device 7 owns the station schedule of its own station, and when the operation of all the trains scheduled on the schedule is completed, it is judged that the equipment at the station can be stopped, and the equipments 8 to 1 are determined.
Then, the power cutoff control is performed on 1 and each device is stopped.
It should be noted that the operation completion of the train can be known from the fact that the last train has passed through the own station both up and down.

On the other hand, the station control device 7 always checks the current time, and at a certain time before the start of business, controls the power supply to the devices 8 to 11 so that each device can operate. State.

[0007]

In the distributed train operation management system to which the above-described conventional power supply control system is applied, the station control device 7 itself operates all day (2) except during the train operation time zone.
(4 hours) There was a problem that it had to be running. Also, usually, a computer such as the station control device 7 is often supplied with power from an uninterruptible power supply for measures against instantaneous interruptions, and therefore, the power supply (primary power supply of the uninterruptible power supply) is used at night. If this is attempted, the uninterruptible power supply switches to the supply from the battery inside. And, usually, these batteries do not have the capacity to compensate for the long-term blackout at night, and as a result, shutting off the power supply at night leads to unnecessary discharge and charging of the battery of the uninterruptible power supply, There is a problem that the life of the battery is shortened.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is possible to save the power for operating the system, and to avoid the shortening of the battery life due to unnecessary charging / discharging, and a power supply device therefor. The purpose is to obtain a control method.

[0009]

According to a first aspect of the present invention, a power supply device supplies power to a device to be supplied through a secondary power supply line.
In the power supply unit that supplies uninterrupted power to the
Direct power supply line connected to the power line and
Supply power from a rechargeable battery to the secondary power line
Instantaneous interruption switching device and no power failure compensation from the supplied device
The primary power supply line to which input power was supplied based on the instruction
Switch from the instantaneous interruption switching device to the direct power line and connect
Power failure compensation not required so that power failure compensation is not performed
Is output to the instantaneous interruption switching device, and the
Primary power supplied by input power based on power outage compensation required instruction
Cut the power line from the direct power line to the instantaneous interruption switching device.
Power outage compensation to replace and connect and perform power outage compensation
A switching device that outputs a necessary instruction to the instantaneous interruption switching device.
It is provided.

According to a second aspect of the present invention, there is provided the power supply device control method, wherein the operation stop condition of the supplied device is determined and the operation is stopped.
If the stop condition is met, the power outage compensation unnecessary instruction
Transmitting from the supplied device to the power supply device;
When there is a compensation unnecessary instruction, the power supply unit
Supply power directly to the power supply and
From the instantaneous interruption switching device to the
Stopping the power outage compensation due to
Judgment of the operation start condition and the above operation start condition is satisfied
In this case, a power failure compensation required instruction is
The power outage compensation necessary instruction.
From the power supply unit,
Supply power to the device to be supplied and switch to the
Compensates for power failure from the equipment to the supplied equipment using a battery.
Steps.

[0011]

In the power supply apparatus according to the first aspect of the present invention , the power failure compensation is performed when the power failure is detected by the instantaneous interruption switching device.
Power from the battery is supplied to the secondary power supply line. Sa
In addition, the switching device prevents the power outage compensation from the
The primary power line supplied with input power based on the instruction required
Switch from the uninterrupted switching device to the direct power line and connect
Power outage compensation is not required so that power outage is not compensated
An instruction is output to the instantaneous interruption switching device, and the
Input power is supplied based on the power
The primary power supply line is connected to the direct power supply line
Will be switched to connected and will perform power outage compensation.
The power failure compensation required instruction is output to the instantaneous
You.

[0012] In the control method of the power supply device according to the second aspect of the present invention, the first step is to control the power supply device.
The operation stop condition is determined and the operation stop condition is satisfied.
If the power failure compensation unnecessary instruction is issued from the
To the source device . In the second step, when the power failure compensation unnecessary instruction is issued,
Power is supplied directly to the supplied device from
From the uninterrupted switching device in the power supply to the supplied device
Power outage compensation by the battery is stopped . In addition, 3
In the second step, the operation start condition of the supplied device is
Case is judged and the above-mentioned operation start condition is satisfied
The power-supply compensation instruction is sent from the supplied device to the power supply
It is conveyed to the place . And by the last step, before
When there is a power outage compensation required instruction,
Power is supplied from the instantaneous interruption switching device to the supplied device.
At the same time, the backup from the instantaneous
Power failure compensation is performed by Terry .

[0013]

【Example】

Embodiment 1 FIG. The configuration of the first embodiment of the present invention will be described with reference to FIG. FIG. 1 is a block diagram showing Embodiment 1 of the present invention when applied to a distributed train operation management system. In the drawings, the same reference numerals indicate the same or corresponding parts.

In FIG. 1, reference numeral 13 denotes an uninterruptible power supply for supplying power to the station control device 7, 14 a signal line for transmitting a power failure compensation necessity instruction, 15 a primary power supply line for inputting power, and 16 a switch. The device, 17 is a direct transmission power line, 18 is a signal line for transmitting a switching instruction, 19 is a battery, 20 is a non-instantaneous interruption switching device that switches by detecting a power failure, and 21 is a secondary power line for outputting power.

Next, the operation of the first embodiment will be described. The station control device 7 is supplied with power from a power supply device 13. In the power supply device 13, the primary power supply line 15
The switching device 16 is switched to the non-instantaneous interruption switching device 20 side so that the secondary power source is not cut off even if the primary side power source causes a power failure from the battery 19 when the primary power source is cut off. The secondary power source is maintained through the instantaneous interruption switching device 20.

In this state, if it is determined by the logic described below that the station control device 7 may stop operating, for example, an instruction for not requiring power outage compensation of the contact output via the signal line 14 is sent to the switching device 16. Output. With this instruction, the switching device 16 switches the input power to the instantaneous interruption switching device 20.
Is output to the direct transmission power supply line 17, and at the same time, a power failure compensation unnecessary instruction is output to the instantaneous interruption switching device 20 through the signal line 18. In response to this instruction, the instantaneous interruption switching device 20 sets a state in which power failure compensation by the battery 19 is not performed for a subsequent power failure. This is because the switching device 16 switches from the instantaneous interruption switching device 20 to the direct transmission power line 17 so that the instantaneous interruption switching device 20 determines that an apparent power failure has occurred and the battery 19 does not perform power failure compensation. That's why.

With the above operation, the primary power supply reaches the secondary power supply line 21 through the direct power supply line 17 and supplies power to the station control device 7. That is, in this state, the primary power supply can be cut off without consuming the battery 19. Normally, the cutoff and input are performed by a power management system or the like that manages a wide area.

Next, the operation of the primary side after the power is turned on will be described. After the power is turned on, the switching device 16 is switched to the direct power supply line 17 side by the operation described above, and if the station control device 7 starts operating, it is not possible to compensate for an instantaneous interruption of the primary power supply. Therefore, when it is determined that the station control device 7 is to be operated based on the logic described below, for example, a power failure compensation required instruction of a contact output is output to the switching device 16. In response to this instruction, the switching device 16 switches the input power so as to be output from the direct power supply line 17 to the instantaneous interruption switching device 20, and at the same time, outputs a power failure compensation necessary instruction to the instantaneous interruption switching device 20 via the signal line 18. I do. In response to this instruction, the instantaneous interruption switching device 20 sets the battery 19 to a state where power failure compensation is performed for a subsequent power failure.

By the above operation, the primary-side power supply reaches the secondary power supply line 21 through the non-interruptible switching device 20 to supply power to the station control device 7. In other words, in this state, if the primary power supply fails, the secondary power supply is maintained by the battery 19 through the instantaneous interruption switching device 20.

Next, the logic for determining that the operation of the station control device 7 may be stopped will be described with reference to FIG.
FIG. 2 is a flowchart showing the operation stop condition logic according to the first embodiment of the present invention.

The logic shown in FIG. 2 is always activated in the station control device 7 at a constant period during the operation of the device. In step 30, it is determined whether or not the operation is necessary. If it is determined that the operation is completed, the process proceeds to step 31 and the above-described power failure compensation unnecessary instruction is output. Here, once the same instruction is output, the same instruction is output at a constant cycle as long as the condition of step 30 is satisfied. However, since the instruction is for the same state, it may be repeatedly output.

Finally, the logic for determining that the station control device 7 is to be operated will be described with reference to FIG. FIG. 3 is a flowchart showing the operation start condition logic according to the first embodiment of the present invention.

The logic shown in FIG. 3 is activated only once in the station control device 7 when the device starts up. In step 32, a power failure compensation required instruction is output unconditionally at the time of startup. In this logic, the rise of the primary power supply due to the release of the planned power outage and the rise of the primary power supply after the instantaneous power outage of the primary power supply after the output of the power failure compensation unnecessary instruction by the logic shown in FIG. In either case, step 32 is executed. In the latter case, however, the condition of step 30 is satisfied by the logic shown in FIG. It is executed and returns to the state before the momentary stop.

As described above, in a system in which power is supplied from the uninterruptible power supply 13 for compensation for an instantaneous power outage, planned operation suspension periods (midnight, weekends, etc.) of this system
Power outage (power supply 1
3 is realized without consuming the battery 19 of the uninterruptible power supply 13. The station control device 7 is supplied with power from the power supply device 13, and sends a power failure compensation unnecessary instruction to the switching device 16 in the power supply device 13 when it determines that the operation can be stopped, and when it determines that the operation has started. Output. The switching device 16 sends the primary power line 1
5 is switched to the direct power supply line 17 or the instantaneous interruption switching device 20, and at the same time, a power failure compensation necessity instruction is output to the instantaneous interruption switching device 20. As a result, after the apparatus 7 determines that the operation can be stopped, the secondary power is not supplied from the battery 19 even if the primary power is cut off.

Embodiment 1 of the present invention, as described above,
In a system such as a train operation management system that does not operate regularly for a certain period of time (for example, every day at night), if a scheduled power outage is attempted at that time, the consumption of the battery 19 of the uninterruptible power supply 13 for instantaneous power outage compensation is reduced. Cannot be implemented. In order to solve this problem, an instantaneous power failure compensation necessity instruction is issued from the system side, and the power supply unit 13 is switched. Accordingly, the necessity of the power failure compensation of the uninterruptible power supply 13 can be controlled by the judgment of the supplied side, so that the scheduled power failure of the primary power supply of the uninterruptible power supply 13
This makes it possible to reduce the operating power of the system and to avoid shortening the battery life due to unnecessary charging / discharging.

In the above description, the case where the present invention is used for a distributed train operation management system has been described. However, it is needless to say that the present invention can be used for other industrial control systems in the same operating condition.

[0027]

The power supply according to claim 1 of the present invention is
As described above, power is supplied through the secondary power line
In a power supply unit for supplying uninterrupted power to the device,
Direct power supply line connected to the secondary power supply line and when a power failure is detected
Supply the power from the power failure compensation battery to the secondary power line.
A non-instantaneous interruption switching device for supplying power, and a power failure supplement from the supplied device.
Primary power supply line to which input power is supplied based on no charge indication
Switching from the instantaneous interruption switching device to the direct transmission power line
Make sure that no power outage compensation is
Output a required instruction to the instantaneous interruption switching device, and
Input power is supplied based on the power
From the direct power supply line to the instantaneous interruption switching device.
Switch to connect to
A switching device that outputs an electric compensation required instruction to the instantaneous interruption switching device.
With this arrangement, the power consumption of the system can be saved, and the shortening of the battery life due to unnecessary charging / discharging can be avoided.

As described above, the control method of the power supply device according to the second aspect of the present invention includes the operation stop condition of the supplied device.
Judgment is made, and if the above
A power compensation unnecessary instruction is transmitted from the supplied device to the power supply device.
Step, and when there is the power outage compensation unnecessary instruction,
When power is directly supplied from the power supply device to the supplied device,
Also, the power supply from the instantaneous interruption switching device in the power supply device
Steps to stop battery power outage compensation for equipment
And determining the operation start condition of the supplied device, and
If the start conditions are met, the power outage compensation
Communicating from the supplied device to the power supply device;
When there is a power outage compensation required instruction,
When power is supplied from the uninterrupted switching device to the supplied device
In both cases, the battery from the instantaneous interruption switching device to the
And the step of compensating for a power outage due to the power consumption of the battery. This makes it possible to save the operating power of the system and to avoid shortening the battery life due to unnecessary charging / discharging.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a first embodiment of the present invention.

FIG. 2 is a flowchart showing an operation stop condition logic according to the first embodiment of the present invention.

FIG. 3 is a flowchart showing an operation start condition logic according to the first embodiment of the present invention.

FIG. 4 is a diagram showing a distributed train operation management system to which a conventional power supply device control system is applied.

[Explanation of symbols]

 7 Station control device 13 Uninterruptible power supply 16 Switching device 19 Battery 20 Instantaneous interruption switching device

Continuation of the front page (56) References JP-A-52-78045 (JP, A) JP-A-3-56044 (JP, A) JP-A-3-126119 (JP, A) JP-A-4-129875 (JP) JP-A-64-47237 (JP, A) JP-A-58-159632 (JP, A) JP-A-61-68648 (JP, U) JP-A-61-68647 (JP, U) JP-A-61-68647 (JP, U) 63-15136 (JP, U) JP-A 2-14251 (JP, U) JP-A 56-118401 (JP, U) (58) Fields investigated (Int. Cl. ⁶ , DB name) B61L 1/00 -27/04 H02J 9/00-9/06 505

Claims (2)

(57) [Claims] 1. A power supply is supplied to a device to be supplied through a secondary power supply line.
In a power supply device for supplying uninterrupted power to the power supply device, a direct power supply line connected to the secondary power supply line, and a power supply from a power failure compensation battery when a power failure is detected.
Input based on uninterruptible switching device to supply to secondary power line and power failure compensation unnecessary instruction from the supplied device
The primary power supply line to which power is supplied from the instantaneous interruption switching device
Switch to the direct power supply line and connect it, and compensate for power failure
The power failure compensation unnecessary instruction so that the
Output to the power supply to the
Direct power supply to the primary power supply line based on the input power supply
Switching from the source line to the hitless switching device and connecting
The power failure compensation required instruction is issued to
Power supply, characterized in that it comprises a switching device for outputting the sectional switching device. 2. The method according to claim 1, further comprising the step of judging an operation stop condition of the apparatus to be supplied.
If the operation stop condition is satisfied, a power outage compensation unnecessary instruction
From the supplied device to the power supply device, and when there is the power failure compensation unnecessary instruction, from the power supply device
While supplying power directly to the supplied device,
From the instantaneous interruption switching device in the power source device to the
Stopping the power failure compensation by terry and determining the operation start condition of the supplied device and starting the operation
If the conditions are met, the power outage compensation
Transmitting from the supply device to the power supply device; and
Power from the instantaneous interruption switching device to the supplied device
At the same time, the backup from the instantaneous
Performing power failure compensation by terry .