JPH03169230A - Battery cutoff method - Google Patents

Abstract

PURPOSE:To connect an extension to a base part without limitation by connecting extensions one after another through relay contacts to the base part. CONSTITUTION:When an emergency cutoff switch 16 is cut, the first relay 10 and the second relay 13 of the base part 1 become off. The first relay 10 becomes off and a battery 24 is cut off. On the other hand, the second relay 13 becomes off, and the battery 25 of an extension 2 is cut off. This way, for the extensions, the batteries are cut one after another. The base part 1 is provided with only two relays of the first relay 10 and the second relay 13, and there is no necessity of increasing the capacity of an alarm contact 17, so the extensions 2 and 3 can be connected to the base part 1 without limitation.

Description

[Detailed Description of the Invention] [Summary] Regarding the battery disconnection method in case of emergency power cut-off in a power supply device having a battery backup function, the present invention provides a battery disconnection method that allows an extension part to be connected to the base tree part without any restrictions. For the purpose of this, the first and second relays are activated by a battery disconnection signal caused by disconnection of an emergency power cutoff switch, a first relay contact that is opened and closed by the first relay, and a first relay contact that is connected to the first relay contact. A basic part having a battery between an AC-DC converter and a DC-DC converter and having a second relay contact opened and closed by the second relay, an extension part configured in the same manner as the basic part. The battery is configured to be sequentially disconnected by sequentially connecting via the second relay contact and opening the first and second relay contacts.

[Industrial Application Field] The present invention relates to a battery disconnection method for emergency power disconnection in a power supply device having a battery backup function.

In recent years, electronic computers have become non-stop, and a battery backup function is mainly used during power outages and momentary power outages. Does it have a battery backup function like this? In an electronic computer system that handles several k-source devices, it is necessary to disconnect the battery in the event of an emergency power disconnection.

[Prior Art] FIG. 3 shows a conventional battery IJ-1uJ disconnection method during emergency main power disconnection.

In No. 3, when performing an emergency 1uJ cutoff of the power supply, the basic unit 2
A C/D C D converter 3, expansion n section 4 A C
/DC converter 5 and expansion n-1-] unit 6 A
The C/DC converter 7 is designed so that there is no human power required, so that the power supply can be cut off in an emergency. However, as a countermeasure in the event of a power outage or momentary power outage, batteries 8 to 10 are each installed.
0 is connected to the DC/I)C converters 11-13, so the outputs of the DC/DC converters 11-13 are
This is maintained until batteries 8-10 are discharged.

Therefore, when the emergency power cutoff switch 1 is cut off, the relays 15 to 17 receive a signal that turns off the alarm contact 14 as a battery cutoff signal, and are turned off.

Therefore, relay contacts 1-8 are opened and battery 8 is disconnected, relay contact 19 is opened and battery 9 is disconnected, and at the same time relay contact 20 is opened and battery 10 is disconnected. In this way, by opening relay contacts 18-20, all batteries 8-1
0 was cut off.

[Problems to be Solved by the Invention] However, in such a conventional battery disconnection method, as the number of extension parts connected to the basic part increases,
There is a limit to increasing the capacity of the alarm contact that turns on and off the relay in the basic part, and there is a problem in that the extension part cannot be connected to the basic part without any restrictions.

The present invention has been made in view of such conventional problems, and by sequentially connecting the extension parts to the base wood part via relay contacts, the extension parts can be connected to the base part without any restriction. The purpose is to provide a battery disconnection method that can be connected.

[A thousand steps to solve problems] FIG. 1 is a diagram explaining the principle of the present invention.

In Figure 1, 10.13 is the emergency power cut-off switch 1.
18 is a first relay contact that is opened and closed by the first relay 10; 24 is a battery connected to the first relay contact 18; 4 is an AC 1 DC converter, 7 a DC 1 DC converter, 21 5 second relay contacts opened and closed by the second relay 13, 1 the basic part, 2 the second relay contact 2
This is an extension section that is connected sequentially through the basic section 1 and configured in the same manner as the basic section 1.

[Function] In this version, there is an emergency power cut-off switch or l. ;JJ
When disconnected, the first and second relays of the base part are turned off, so the first relay contact is turned off and the battery is disconnected, while the second relay contact is turned off, so the extension part The first and second relays are turned off, disconnecting the battery of the extension. In this way, the extended portions are sequentially disconnected from the battery.

The base wood part is only equipped with two relays, the first relay and the second relay, and there is no need to increase the capacity of the alarm contact, so extension parts can be connected to the base part without any restrictions. can.

[Example] Hereinafter, embodiments of the present invention will be described based on the drawings. FIG. 2 is a diagram showing an embodiment of the present invention.

In FIG. 2, ] is a basic part that constitutes the power supply, 2 is an extended n part that constitutes the power supply, and 3 is an extended n+i part that constitutes the power supply. An expansion n section 2 is connected to the basic section 1, and an expansion n+i section 3 is connected to the expansion section 2.

4 to 6 are AC/C (alternating current to direct current) converters, and the AC/'1)C converters 4 to 6 convert input alternating current to direct current. 7 to 9 are DC/'I)C(DC/l?'
DC/'DC converter 7~
9 is the converted direct current, which is converted into a plurality of voltages of direct current.

10 to 12 and 1-3 to 15 are a first relay and a second relay connected between A C/DC converters 4 to 6 and D C/DC converters 7 to 9, and the basic part 1's first relay]O and the second relay 13 are connected to an alarm contact 17 that is opened and closed by an emergency power cutoff switch 16,
The first relay 11 and the second relay 14 of the extension n section 2 are connected to the second relay contact 21- of the basic section 2, and the first relay 1-2 and the second relay 1 of the extension n+1 section 3 are connected to the second relay contact 21- of the basic section 2.
5 is connected to the second relay contact 22 of the expansion n section 2.

The first relays 10-12 open and close the first-relay contacts 18-20, respectively, and the second relays 13-15 open and close the second relay contacts 21-23, respectively.

24 to 26 are batteries;
are connected between AC/I)C converters 4-6 and I)C/DC converters 7-9 via first relay contacts 1-8-20. Note that the AC power input terminals 27 are connected to the AC/'DC converters 4 to 6 via the emergency power cutoff switch 16, respectively.

Next, the operation will be explained.

During normal operation, AC power is disconnected from emergency power disconnect switch 1
6 to the AC/I)C converters 4 to 6, and
C/DC converter 4 to G converts alternating current to direct current,
The DC/I)C converters 7 to 9 step up the DC voltage and output it to each part. At this time, the batteries 24 to 26 are connected to AC/
They are charged by DC converters 4 to 6, respectively.

Next, during a power outage or a momentary power outage, there is no AC input to the AC/l)C converters 4 to 6, but the battery 2
4 to 26, the I)C/I)C converter 7 to
The output of 9 is maintained. This is how the battery backup function works.

Next, at the time of emergency power cutoff, the emergency power cutoff switch 16
is cut off, no AC power is input to the AC/'DC converters 4 to 6, and the emergency power supply is cut off. In this case, the alarm contact 17 is turned off by disconnecting the emergency power cutoff switch] 6, and the first relay 10 and the Q second relay 13 are turned off. Therefore, the first relay contact 18 is turned off and the battery 24 is disconnected. Further, when the second relay 13 is turned off, the second relay contact 21 is turned off, so the first relay 11 and the second relay 14 of the expansion n section 2 are turned off, and the first relay contact 19 and the second relay contact 22 are turned off. is turned off. Therefore, battery 25
is disconnected. Also, the first relay 1 of the expansion n + 1 part 3
2 and the second relay 195 are turned off, the first relay contact 20 and the second relay contact 23 are turned off, and the battery 26 is disconnected.

Thus, the battery 24 of the basic part 1, the battery 25 of the extended n+1 part 2, and the battery 26 of the extended n+1 part 3.
It will be cut sequentially. Basic part 1-, extended part 2
And the expansion n+1 section 3 is provided with two relays, first relays 10 to 12 and second relays 13 to 15, respectively,
Since the connections are made sequentially via the second L no contacts 21 to 23, there is no need to increase the capacity of the alarm contact 17 in the basic part, and the extension parts 2 and 3 are limited in accordance with the basic part 1-. It can be connected without any problem.

[Effects of the Invention] As described above, according to the present invention, when the emergency power cutoff switch is disconnected, the first and second relays of the base unit are turned off, and when the first relay contact is turned off, the battery of the base unit is turned off. is disconnected, and by turning off the second relay contact, the batteries in the extension section are sequentially disconnected to 1-O.Therefore, there is no need to increase the capacity of the alarm contact, and the extension section can be connected to the basic section without any restrictions. I can do something.

[Brief explanation of the drawing]

FIG. 1 is a diagram explaining the principle of the present invention, FIG. 2 is a diagram showing an embodiment of the present invention, and FIG. 3 is a diagram showing a conventional example. In the figure, 1... base wood part, 2... extended n part, 3... extended n+1 part, 4-6... AC/DC converter (AC-DC converter) 7-9...・I) C/I) C converter (DC-DC converter) 10-12...1st relay 1-3-15...2nd relay 16...Emergency power cut-off switch, 11 7...Alarm contact , 8-20...first relay contact, 1-23...second relay contact, 4-26...battery 7...input terminal.

Claims (1)

[Claims] The first and second relays (10) and (13) are activated by a battery disconnection signal caused by disconnection of the emergency power disconnection switch (16).
), a first relay contact (18) opened and closed by the first relay (10), and a battery (24) connected to the first relay contact (18), which are connected to an AC-DC converter (
4) and the DC-DC converter (7), and has a second relay contact (21) that is opened and closed by the second relay (13). The extension parts (2) configured in the same manner as in 1) are sequentially connected via the second relay contact (21), and the first and second
A battery disconnection method characterized in that the battery (24) is sequentially disconnected by opening relay contacts (18) and (21).